The document describes improvements made to the CROPGRO-PFM model to better simulate growth and biomass partitioning of guineagrass cultivars Tanzânia and Mombaça. Data from two field experiments with different harvest cycles were used to modify model parameters. Major improvements were achieved by modifying parameters controlling biomass partitioning between leaf and stem throughout phenological stages. Additional modifications improved simulation of leaf and stem senescence, leaf photosynthesis, and sensitivity of leaf area expansion to cool weather. The improved model performance for simulating short and long harvest cycles will enable applications to diverse forage crop utilization strategies.
Ecological environment effects on germination and seedling morphology in Park...AI Publications
Néré (Parkia biglobosa) is a wild species preferred and overexploited for its multiple uses by rural populations in Sub-Saharan Africa. The study of its germination and seedlings could constitute a prerequisite for its domestication, necessary for its conservation. This study aimed to assess the germination and morphology of seedlings taking into account distinct habitats from its natural environment.A total of 2160 seeds from different mother plants and 540 seedlings from germination were selected and evaluated. The trials were conducted on three sites (two nurseries in Côte d'Ivoire vs one greenhouse in France) with different microclimates. The results showed that the larger the mother trees are, the larger the seeds they produce, which in turn generate more vigorous seedlings. This study showed that the species grows better in a milder environment that is different from its region of origin (fertile soil with a stable or humid tropical climate: Montpellier greenhouse and Daloa nursery). Overall, parent trees did not statistically influence each germination and seedling development parameter for the three sites combined (P > 0.05). However, analysis of variance showed that germination and seedling development parameters differed between experimental sites (P < 0.05). These results are useful and could be used as decision support tools to guide conservation (domestication) and agroforestry programmes based on Parkia biglobosa. This study could be extended to other endangered species in order to preserve biodiversity.
Mixture of hairy woodrose (Merremia aegyptia L.) with carnauba straw (Coperni...Open Access Research Paper
The use of mixtures of organic fertilizers present in the cultivation areas is of paramount importance for farmers who produce in the family farming system, in this sense, the objective was to study the mixture of hairy woodrose (Merremia aegyptia L.) with carnauba straw (Copernicia prunifera) in the productivity of lettuce in the semi-arid region from Brazil. The experiment was carried out in a greenhouse in the experimental area of the Department of Agronomic and Forestry Sciences. The experiment was carried out in a completely randomized design in a 5 x 2 factorial scheme, with three replications. The first factor consisted of five amounts of the mixture of jitirana with carnauba straw (0.0; 1.5; 3.0; 4.5 and 6.0kg m-2 of area), and the second factor for the forms of application to the soil (embedded and cover). The lettuce cultivar planted was crespa, which is widely sold in the semi-arid region of Brazil. The evaluated characteristics were: Plant height, diameter, number of leaves, lettuce production and dry mass. The research results showed that the amount of 4.5kg m contributed to the increase of the evaluated characteristics, with values of 115 and 11.97g plant-1. The use of a mixture of organic fertilizers (hairy woodrose and carnauba straw) was extremely effective in the production of vegetable crops, bringing agronomic advantages to the producer.
Ecophysiological Yield Components In Wheat Cultivars Under Variable Phosphoru...Agriculture Journal IJOEAR
Abstract— Effects of P deficiency and interactions Cultivar x P available, on wheat yield and ecophysiological components were analysed, considering that the grain number m-2 is the product of the length of spike growth period, crop growth rate during this phase, the proportion of growth for spikes (partitioning) and spike fertility (grain number produced per unit of spike dry weight). Four cultivars with different strategy to generate yield (i.e. combinations of ecophysiological yield components) were compared with and without P fertilization, during two years in Azul, Buenos Aires, Argentina. The soil was moderately P deficient (7-9 mg P kg-1 soil) and P fertilization treatments (50 kg P ha-1) were established at sowing. P deficiencies affected yield and most of its components, the exceptions were: partitioning to spike, spike growth period and radiation use efficiency. The interaction Cultivar x P fertilization was not significant in all cases. The lack of interaction between cultivar and P level suggest that improvements in any crop physiological component will express in both, moderately deficiencies or high P environment.
GENOMIC AND TRANSCRIPTOMIC APPROACHES TOWARDS THE GENETIC IMPROVEMENT OF AN U...Faraz Khan
With the world population estimated to be nine billion by 2050, the need to exploit plant genetic diversity in order to increase and diversify global food supply, and minimise the over-reliance for food on a few staple crops is of the utmost importance. Bambara groundnut (Vigna subterranea (L) Verdc.), is underutilised legume indigenous to Africa, rich in carbohydrates, with reasonable amounts of protein. It is known to be drought tolerant, able to
grow on marginal lands where other major crops cannot with minimal rainfall (<700 mm) and chemical inputs. Crop improvement for abiotic stress tolerance and increasing/stabilising yield have been difficult to achieve due to the complex nature of these stresses, and the genotype x environment interaction (GxE). This review paper highlights how a number of recent technologies and approaches used for major crop research, can be translated
into use in research of minor crops, using bambara groundnut as an exemplar species. Using drought tolerance as a trait of interest in this crop, we will demonstrate how limitations can affect genomic approaches for understanding traits in bambara groundnut, and, how genomic and transcriptomic methodologies developed for major crops can be applied to underutilised crops for better understanding of the genetics governing important agronomic traits. Furthermore, such approaches will allow for cross species comparison between major and minor crops, exemplified by bambara groundnut leading to improved research in such crops. This will lead to a better understanding of the
role of stress-responsive genes and drought adaptation in this underutilised legume.
Agronomic viability of arugula, A functional vegetable, under the residual ef...Open Access Research Paper
Arugula is a nutritionally rich vegetable. Considered a functional food, it can be used to treat diseases and improve clinical conditions. This work was conducted at the Rafael Fernandes Experimental Farm, in the Alagoinha district, rural area of Mossoró-RN, from December 2016 to February 2017, with the objective of evaluating the agronomic viability of arugula, functional vegetable under the residual effect of species of the semi-arid region. The experimental design was the complete randomized blocks with treatments arranged in a 5 x 3 factorial scheme, with three replications. The first factor was constituted by four green fertilizer (0.0, 0.8, 1.6, 2.4, 3.2kg m-2 dry basis) and second factor by the types of green fertilizers (Merremia aegyptia, Calotropis procera and Senna uniflora). Initially radish was planted in plots of 1.4 x 1.4m. After the crop was withdrawn, the arugula cultivated Cultivada was planted. The evaluated characteristics were: height and number of leaves per plant, yield; number of sauces and dry matter mass of the aerial part. The best agronomic performance of the arugula was observed in the amount of 2.4kg m-2, with yield of 902.3g m-2 and 30 arugula sauces. Among the types of fertilizers, Merremia aegyptia presented statistical superiority in relation to Calotropis procera and Senna uniflora for yield and number of sauces. The incentive for the cultivation of arugula is important because its benefits are directly related to the farmers who produce and also commercialize, and the consumers who acquire this vegetable.
Ecological environment effects on germination and seedling morphology in Park...AI Publications
Néré (Parkia biglobosa) is a wild species preferred and overexploited for its multiple uses by rural populations in Sub-Saharan Africa. The study of its germination and seedlings could constitute a prerequisite for its domestication, necessary for its conservation. This study aimed to assess the germination and morphology of seedlings taking into account distinct habitats from its natural environment.A total of 2160 seeds from different mother plants and 540 seedlings from germination were selected and evaluated. The trials were conducted on three sites (two nurseries in Côte d'Ivoire vs one greenhouse in France) with different microclimates. The results showed that the larger the mother trees are, the larger the seeds they produce, which in turn generate more vigorous seedlings. This study showed that the species grows better in a milder environment that is different from its region of origin (fertile soil with a stable or humid tropical climate: Montpellier greenhouse and Daloa nursery). Overall, parent trees did not statistically influence each germination and seedling development parameter for the three sites combined (P > 0.05). However, analysis of variance showed that germination and seedling development parameters differed between experimental sites (P < 0.05). These results are useful and could be used as decision support tools to guide conservation (domestication) and agroforestry programmes based on Parkia biglobosa. This study could be extended to other endangered species in order to preserve biodiversity.
Mixture of hairy woodrose (Merremia aegyptia L.) with carnauba straw (Coperni...Open Access Research Paper
The use of mixtures of organic fertilizers present in the cultivation areas is of paramount importance for farmers who produce in the family farming system, in this sense, the objective was to study the mixture of hairy woodrose (Merremia aegyptia L.) with carnauba straw (Copernicia prunifera) in the productivity of lettuce in the semi-arid region from Brazil. The experiment was carried out in a greenhouse in the experimental area of the Department of Agronomic and Forestry Sciences. The experiment was carried out in a completely randomized design in a 5 x 2 factorial scheme, with three replications. The first factor consisted of five amounts of the mixture of jitirana with carnauba straw (0.0; 1.5; 3.0; 4.5 and 6.0kg m-2 of area), and the second factor for the forms of application to the soil (embedded and cover). The lettuce cultivar planted was crespa, which is widely sold in the semi-arid region of Brazil. The evaluated characteristics were: Plant height, diameter, number of leaves, lettuce production and dry mass. The research results showed that the amount of 4.5kg m contributed to the increase of the evaluated characteristics, with values of 115 and 11.97g plant-1. The use of a mixture of organic fertilizers (hairy woodrose and carnauba straw) was extremely effective in the production of vegetable crops, bringing agronomic advantages to the producer.
Ecophysiological Yield Components In Wheat Cultivars Under Variable Phosphoru...Agriculture Journal IJOEAR
Abstract— Effects of P deficiency and interactions Cultivar x P available, on wheat yield and ecophysiological components were analysed, considering that the grain number m-2 is the product of the length of spike growth period, crop growth rate during this phase, the proportion of growth for spikes (partitioning) and spike fertility (grain number produced per unit of spike dry weight). Four cultivars with different strategy to generate yield (i.e. combinations of ecophysiological yield components) were compared with and without P fertilization, during two years in Azul, Buenos Aires, Argentina. The soil was moderately P deficient (7-9 mg P kg-1 soil) and P fertilization treatments (50 kg P ha-1) were established at sowing. P deficiencies affected yield and most of its components, the exceptions were: partitioning to spike, spike growth period and radiation use efficiency. The interaction Cultivar x P fertilization was not significant in all cases. The lack of interaction between cultivar and P level suggest that improvements in any crop physiological component will express in both, moderately deficiencies or high P environment.
GENOMIC AND TRANSCRIPTOMIC APPROACHES TOWARDS THE GENETIC IMPROVEMENT OF AN U...Faraz Khan
With the world population estimated to be nine billion by 2050, the need to exploit plant genetic diversity in order to increase and diversify global food supply, and minimise the over-reliance for food on a few staple crops is of the utmost importance. Bambara groundnut (Vigna subterranea (L) Verdc.), is underutilised legume indigenous to Africa, rich in carbohydrates, with reasonable amounts of protein. It is known to be drought tolerant, able to
grow on marginal lands where other major crops cannot with minimal rainfall (<700 mm) and chemical inputs. Crop improvement for abiotic stress tolerance and increasing/stabilising yield have been difficult to achieve due to the complex nature of these stresses, and the genotype x environment interaction (GxE). This review paper highlights how a number of recent technologies and approaches used for major crop research, can be translated
into use in research of minor crops, using bambara groundnut as an exemplar species. Using drought tolerance as a trait of interest in this crop, we will demonstrate how limitations can affect genomic approaches for understanding traits in bambara groundnut, and, how genomic and transcriptomic methodologies developed for major crops can be applied to underutilised crops for better understanding of the genetics governing important agronomic traits. Furthermore, such approaches will allow for cross species comparison between major and minor crops, exemplified by bambara groundnut leading to improved research in such crops. This will lead to a better understanding of the
role of stress-responsive genes and drought adaptation in this underutilised legume.
Agronomic viability of arugula, A functional vegetable, under the residual ef...Open Access Research Paper
Arugula is a nutritionally rich vegetable. Considered a functional food, it can be used to treat diseases and improve clinical conditions. This work was conducted at the Rafael Fernandes Experimental Farm, in the Alagoinha district, rural area of Mossoró-RN, from December 2016 to February 2017, with the objective of evaluating the agronomic viability of arugula, functional vegetable under the residual effect of species of the semi-arid region. The experimental design was the complete randomized blocks with treatments arranged in a 5 x 3 factorial scheme, with three replications. The first factor was constituted by four green fertilizer (0.0, 0.8, 1.6, 2.4, 3.2kg m-2 dry basis) and second factor by the types of green fertilizers (Merremia aegyptia, Calotropis procera and Senna uniflora). Initially radish was planted in plots of 1.4 x 1.4m. After the crop was withdrawn, the arugula cultivated Cultivada was planted. The evaluated characteristics were: height and number of leaves per plant, yield; number of sauces and dry matter mass of the aerial part. The best agronomic performance of the arugula was observed in the amount of 2.4kg m-2, with yield of 902.3g m-2 and 30 arugula sauces. Among the types of fertilizers, Merremia aegyptia presented statistical superiority in relation to Calotropis procera and Senna uniflora for yield and number of sauces. The incentive for the cultivation of arugula is important because its benefits are directly related to the farmers who produce and also commercialize, and the consumers who acquire this vegetable.
Influence of some site factors on germinative parameters of Quercus seedsAI Publications
The genus Quercus has a high economic and ecological potential in Mexico. Nonetheless, its populations are reducing yearly, which demands the implementation of efficient management strategies to preserve them. To determine germinating capacity of seeds, and to learn about their relationship with some conditions of collecting sites (latitude N, accumulated degree-days >5 C in the frozen-free period (AD), precipitation of growing season (PGS)) we used information of seeds and collecting sites for natural populations of Quercus crassifolia, Q. jonesii, Q. polymorpha and Q. potosina. We determined that Q. potosina, the northernmost population; showed higher values of seeds mean weight, percentage of germinated seeds (PGS), average germination time (AGT), peak value (PV), and germination energy (GE), than other species. Q. polymorpha also showed high mean values of seeds weight, PGS, PV, and GE and it was collected at northern latitudes near those of Q. crassifolia and Q. jonesii. Q. jonesii was the southernmost population and showed lower values in these parameters. On the other hand, the analysis also determined that Q. jonesii, Q. plymorpha, and Q. potosina had quicker germination than Q. crassifolia. We inferred that for the species in the analyzed sites, increasing PGS improves sites conditions, which promotes better germination of germplasm.
The International Journal of Engineering and Science (The IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
Phenotypic Correlation and Heritability Estimates of some Quantitative Charac...Premier Publishers
Heritability and phenotypic estimates of some quantitative traits and its influence on different nitrogen fertilizer levels give the room for recombinants which become a prerequisite for any breeding study. Genetic variation in quantitative traits for the development for new variety of crop plant with different nitrogen fertilizer levels. Base on this background, the study was conducted in order to evaluate the quantitative traits from advanced blast-resistant rice varieties in order to establish relationship between yield and yied components using genetic variances.To achieve this objective, two field studies were carried out in Malaysia during the cropping season 2017/2018. Sixteen advanced blast-resistant rice genotypes were studied in order to find out phenotypic correlation and heritability in some quantitative characters to determine the effect of various levels of Nitrogen fertilizer. The field experiment was conducted in a split-plot design replicated three times in a plot of 35 × 28.5 m2. The planting distance was 25 × 25 cm and the plot size was 2 × 1.5 m2 unit for genotype in each replication. There was a highly significant variation among the genotypes in response to to nitrogen levels, high PCV, GCV, heritability, relative distance and genetic advance which indicated that different quantitative traits especially tonnes per hectare (Tha), grain weight per plot (GWTPP) and kilogram per plot (kgplot) significantly influence the yield trait. . Similarly, high heritability (>60%) was observed indicating the substantial effect of additive gene more than the environmental effect. Yield per plant showed strong to low positive correlations (푟 = 0.99 - 0.09) at phenotypic level for grain weight per plot (GWTPP), number of tillers per hill (NTH), number of panicle per hill (NPH) and kilogram per plot (kg/plot).
The use of plants extracts in the improvement of cowpea yield at dang (Ngaoun...Innspub Net
In the substitution of chemical insecticides with potential biopesticides, the efficiency of Lippia multiflora, Plectranthus glandulosus and Callistemon rigidus were evaluated on the improvement of cowpea (Vinia unguiculata) in Dang (Ngaoundere, Cameroon). The experiment was conducted in a completely randomized block design with 5 treatments repeated 4 times each: the negative control, the positive control (Decis), L. multiflora, P. glandulosus and C. rigidus. These different insecticides were sprayed on cowpea plants with 14 days interval starting from the 14th day after sowing. The parameters collected were the diversity of insect pests, the number of pods, and the dry weight of the grains. All of the insecticides used improved cowpea yields. Although less efficient than Decis, most biopesticides significantly (p < 0.001) improved the yield of cowpeas compared to the negative control. This improvement was 260% for C. rigidus, and 120% for P. glandulosus. These results suggest that C. rigidus, P. glandulosus and L. multiflora could be considered as potential substitutes for chemical insecticides in improving cowpea yields.
The use of plants extracts in the improvement of cowpea yield at dang (Ngaoun...Innspub Net
In the substitution of chemical insecticides with potential biopesticides, the efficiency of Lippia multiflora, Plectranthus glandulosus and Callistemon rigidus were evaluated on the improvement of cowpea (Vinia unguiculata) in Dang (Ngaoundere, Cameroon). The experiment was conducted in a completely randomized block design with 5 treatments repeated 4 times each: the negative control, the positive control (Decis), L. multiflora, P. glandulosus and C. rigidus. These different insecticides were sprayed on cowpea plants with 14 days interval starting from the 14th day after sowing. The parameters collected were the diversity of insect pests, the number of pods, and the dry weight of the grains. All of the insecticides used improved cowpea yields. Although less efficient than Decis, most biopesticides significantly (p < 0.001) improved the yield of cowpeas compared to the negative control. This improvement was 260% for C. rigidus, and 120% for P. glandulosus. These results suggest that C. rigidus, P. glandulosus and L. multiflora could be considered as potential substitutes for chemical insecticides in improving cowpea yields.
Annual Biomass Production, Chemical Composition and In- sacco Degradability o...IJEAB
Types of plant cultivars and seasons often affect production and productivity of fodder biomass and nutritional quality to animals. Selection of suitable cultivars and better understanding of year round biomass production are indispensable for improving quality feed supply to animals. Black Seed Moringa (BSM-L) and White Seed Moringa (WSM), the two local cultivars and Black Seed Moringa (BSM-T) cultivar of Thailand origin of Moringa oleifera were cultivated in the fodder research field of the Bangladesh Livestock Research Institute (BLRI) during the period of 19 August 2014 to 23 December 2015. An agronomical trial was conducted to determine the biomass yield of the three cultivars in different seasons of a year under common agronomical practices. The effect of the cultivars on the daily relative growth rate (RGR), chemical composition and in-sacco dry matter (DM) degradability were also evaluated. The cultivar response to biomass production performances, chemical composition and nutritional values were analyzed in an ANOVA of a Randomized Block Design (RBD), while the differences in the rate and extent of the DM degradability in-sacco determined using three rumen cannulated bulls were analyzed in an ANOVA of 3x3 Latin Square Design. The annual biomass yield of BSM-L tops (114.5 t/ha fresh; 22.7 t/ha DM) was significantly higher than that of WSM (29.0 t/ha fresh; 5.80 t/ha DM) or BSM-T (83.5 t/ha fresh; 16.0 t/ha DM). No significant difference in chemical composition (224.9, 222.4 & 223.8 g.kg-1 DM of crude protein (CP), respectively, and 450.9, 455.3 & 435.4 g.kg-1 DM of neutral detergent fiber, respectively) or nutritional value (47.4, 46.7 & 45.3% of potential, and 62.8, 64.2 and 63.6% of effective degradability of dry matter) was found for the cultivars. BSM-L had a significantly higher survivability (97.2%), prune number per plant (3.50) and RGR (15.6 mg DM/day) than WSM (25.0%, 2.30 & 4.20 mg DM/day) or BSM-T (55.6%, 3.10 & 10.8 mg DM/day) respectively. The hot and dry, and hot and humid climate having a Heat Index (HI) range of 25o to 35o F and monthly total rainfall of 130 mm to 332 mm were suitable for cultivation of all the Moringa cultivars. It was concluded that considering biomass production and its quality in terms of chemical composition and nutritional values, Black Seed Moringa (Moringa oleifera) may be cultivated as a plant fodder crop for the production of feed for ruminant animals.
Climate and potential habitat suitability for cultivation and in situ conserv...Innspub Net
Sustainable management actions are needed for several indigenous agro forestry plant species like the black plum (Vitex doniana Sweet) because they are facing increasing pressures due to the rapid human growth and threats such as climate change. By combining species distribution modelling using the Maximum Entropy Algorithm (Max Ent) and representation gap analysis, this study accessed the impacts of current and future (2050) climates on the potential distribution of Vitex doniana in Benin with insight on the protected areas network (PAN). The model showed a high goodness-of-fit (AUC = 0.92 ± 0.02) and a very good predictive power (TSS = 0.72 ± 0.01). Our findings indicated annual mean rainfall, annual mean diurnal range of temperature and mean temperature of the driest quarter as the most important predictors driving the distribution of V. doniana. Under current climate, about 85 % of Benin area is potentially suitable for its cultivation. This potential suitable area is projected to increase by 3 to 12 % under future climatic conditions. A large proportion (76.28 %) of the national PAN was reported as potentially suitable for the conservation of the species under current climate with increase projections of 14 to 23 % under future climate. The study showed that V. doniana can be cultivated in several areas of Benin and that the PAN is potentially suitable for its conservation. These findings highlighted some of the opportunities of integrating V. doniana in the formal production systems of Benin and also its potentialities in ecosystems restoration under the changing climate. Get the full articles at: http://www.innspub.net/ijaar/climate-and-potential-habitat-suitability-for-cultivation-and-in-situ-conservation-of-the-black-plum-vitex-doniana-sweet-in-benin-west-africa/
Genotype by Environment Interaction on Yield Components and Stability Analysi...Premier Publishers
Newly developed varieties can only contribute to increased productivity if high producing varieties are released in production niches they are adapted to. In order to enhance adoption of new improved cassava varieties in western Kenya, a study was conducted to evaluate the effects of genotype by environment interaction (GEI) on agronomic and farmer preferred traits of cassava and to asses yield stability of 16 cassava genotypes. The study was conducted in randomized complete block design with three replications across five different environments of western Kenya. AMMI analysis of variance identified highly significant (P= 0.001) GEI effects for plant height, height at first branching, and fresh root yield. Generally, GEI effects accounted for 14.98%, 24.64% and 28.3% variability in PH, HB, and FRY respectively. GGE biplot analysis shows that MM06/0138, MM96/9308, MM97/0293, MM98/3567, MM06/0074, MM96/4271 were high yielding and stable genotypes. AMMI stability value revealed that genotype MM06/0143 combined high stability for plant height, height at first branching, number of storage roots and fresh root yield. Genotypes MM06/0138, MM98/3567, MM96/9308, MM97/0293, and MM06/0074 outperformed the check in storage roots yield exhibited high yields in farmer preferred traits and were classified as stable genotypes. Therefore, recommended for release to farmers.
Diallel Analysis of Cowpea Cultivar Ife Brown and its MutantsAI Publications
The present investigation of using half diallel analysis in Cowpea cultivar Ife Brown and its three mutants was conducted at Research plot of Department of Agricultural Technology, Federal College of Forestry, Ibadan, Nigeria during the rainy season of 2017. Four parents were used in this study consisting of three (3) mutants (Ife BPC, Ife Brown Yellow, Ife Brown Crinkled) and one (1) putative parent (Ife Brown) that were derived from the Department of Crop Protection and Environmental Biology, University of Ibadan, Ibadan, Nigeria. The present study involves four parents and their seven resultant crosses were grown in a completely Randomized Design with five replications. Analysis of variance for general and specific combining ability(GCA and SCA) revealed that only SCA variances were significant for all the characters. Whereas, comparison of the error mean square of GCA in days to flowering, 100 seed weight and seed yield/plant was higher than the error mean square of SCA thus implying that additive gene action played a more important role in the inheritance of these traits than the non-additive (dominance and epistasis) gene action. Among the parents Ife BPC was observed to be the best general combiner for days to flowering and seed yield/plant. Among the crosses the crosses involving Ife Brown Yellow with Ife Brown in pod length and number of seeds/pod while with Ife Brown Crinkled for days to flowering were recorded. It is evident from present investigation that the hybrid combinations exhibited the high per se performance and sca effect for seed yield per plant and highly promising even in respect of other characters could be advanced by selecting desirable segregants and recombinants in each generation for funneling the new genotype or for using further advanced breeding programme. The present study based on two biometrical analysis (combining ability and genetic components of variances) revealed that the additive and non-additive were involved with preponderance of non-additive gene effects in the inheritance of seed yield and its attributes. It is, therefore, suggested that biparental mating, intermatting of elite segregants and selection at later generations should be followed which meets the requirement of utilizing both types of gene actions.
2 ijhaf dec-2017-3-effect of biochar issued fromAI Publications
Cassava is an important food crop cultivated (75%) by smallholder farmers. However, yields are very low and rarely exceed 17tons/ha-1. A study was carried out at Nkolbisson in the humid forest zone (HFZ) of Cameroon to assess the effect of three types of biochar issued from Cassava (CSb), Ricehusk (RHb), and Corncob (CCb) on the root yield of variety 8034 cassava cultivated along a soil fertility gradient. The biochars were produced using an Elsa pyrolysis technology with carbonisation time of 50-58mins and temperature ranging from 400-6500C. Twelve 8m2 plots were constructed in three sites from the higher elevated, moderately elevated and flat fields.The biochars were applied at 20t.ha-1in three replicationsin a completely randomized design.Results showed that the biochars were high in nutrients containing 4.17-18.15g.kg-1 N, 22.26-42.51 mg.kg-1 P, 2.48-4.18 cmol.kg-1 K and pH (H2O: 7.78-10.81) and were significantly higher than the no-input soil containing 0.79g.kg-1 N, 7.41mg.kg-1 P, 1.42 cmol.kg-1 K and pH (5.68). Cassava root yield was significantly higher (P < 0.05) in RHb plots (23.22 t.ha-1) than CCb (20.53 t.ha-1), CSb (18.67 t.ha-1) and the no-input soil (16.13 t.ha-1). The addition of biochar particularly RHb, increasednutrient uptake in cassava leaves and roots compared with theno-input soil. The study concludes that biochars with higher N, Pand K content tend to increase cassava root yield and suggestsincreasing the quantity of biochar to 40t/ha-1or continuous application in combination with other farming options such as poultry manure, compost or mineral fertilizer tomaximize cassava productivity given the benefits of biochar.
Knowledge of the magnitude of genetic variability, heritability and genetic gains in selection of desirable characters could assist the plant breeder in ascertaining criteria to be used for the breeding programmes. Ten open pollinated maize varieties were evaluated at the Teaching and Research farm, University of Ilorin, Nigeria, during 2005 and 2006 cropping seasons to estimate genetic variability, heritability and genetic advance of grain yield and its component characters. The effect of genotype and genotype by year interaction were significant for ear weight and grain yield, while the effect of year was highly significant (P< 0.01) for all the characters. High magnitude of phenotypic and genotypic coefficient of variations as well as high heritability along with high genetic advance recorded for grain yield, number of grains ear-1, ear weight, plant and ear heights provides evidence that these parameters were under the control of additive gene effects and effective selection could be possible for improvement for these characters. Tze Comp3 C2, Acr 94 Tze Comp5, Tze Comp 4-Dmr Srbc2 and Acr 90 Pool 16-Dt were identified as outstanding genotypes for maize grain yield and should be tested at multilocation for their yield performance.
Irrigation experiments of cocoa tend to concentrate on yield of matured cocoa trees compared to field establishment of young seedlings. Seedling survival leading to optimum population density are fundamental to obtaining maximum yield of crops. The aim of this experiment was to determine the effect of mulching and irrigation on survival of hybrid cocoa clone raised in three different growing media during the establishment phase. The experimental design was a 2 x 2 x 3 factorial arranged in a split-split plot design, with irrigation as the main plot factor, mulching as the subplot factor and growing media as the sub-sub plot factor with three replications. Cocoa pod husk (CPH) was used as the mulching material and each plant received 5kg at a rate of 5.6 t/ha. Irrigation was done daily by applying 4L of water except when it rains. Data was collected on soil moisture, plant height, leaf number, stem girth and plant survival. Results indicated that irrigation and mulching significantly (P<0.01) enhanced soil moisture. Cocoa seedlings raised in topsoil, mulched and irrigated significantly (P<0.05) increased survival rate (94.5%) compared to seedlings raised in soil without irrigation and no mulching (47.1%). Similarly, the survival rate of seedlings raised in growing media M2, mulched and irrigated (93.0%) was significantly (P<0.05) higher than similar seedlings without irrigation (73.4%). However, the survival rate of seedlings raised in M3 without mulching but irrigated was significantly (<0.05) higher 92.1% compared to seedlings raised in M3 mulched and irrigated 67.1%. Irrigation is very important in ensuring high survival rate during early field establishment. Mulching with cocoa pod husk without irrigation did not improve cocoa seedling survival.
Effect of some abiotic factors on the concentration of β- sitosterol of Prunu...Innspub Net
Prunus africana is a medicinal plant which develops in the mountains of several African countries. β-sitosterol can be used as a marker for the control of the product quality of the aforementioned plant in terms of phytotherapy. Farmers and public authorities do not have information on the influence of altitude and chemical characteristics of soils on the concentration of β- sitosterol of P. africana. To contribute to solve the problem, this research, carried out in Cameroon, aims to appreciate the effect of abiotic factors on the above phenotypic character. In nine composite samples of barks taken at different altitudes, the
concentration of β-sitosterol is appreciated via qualitative analyses by Thin Layer Chromatography, High Performance Liquid Chromatography and quantitative analyses by Gas Chromatography coupled with the Mass Spectrometry. The chemical analyses of soils taken under the stems of the aforementioned trees were made. The statistics were carried out using the SAS software. The concentration of β-sitosterol in each population of P. africana varies from zero to 38.65 μg/ml. There is
variability between the averages of the aforementioned concentration with respect to altitude and chemical elements of the soils but the differences are not significant. The Ascending Hierarchical Clustering distributes populations into three groups. These
tools obtained are indispensable for the ground management, the products exploited from this tree species and the production of seeds for creating forest and agro-forest plantations.
We evaluated the oviposition preference and damage capacity of Spodoptera frugiperda on the different phenological stages of corn. Tests were performed at the Assis Chateaubriand Agricultural School (07º10'15" S, 35º51'13" W, altitude 634 meters), municipality of Lagoa Seca, Paraíba State, Brazil, in two areas of 500 m2, with CMS maize hybrid strain and maize intercropped with bean with the spacing of 0.80 x 0.40 m. Eggs and caterpillars were collected weekly on 50 plants randomly sampled in five spots. Height and number of leaves per plant, and damage from caterpillars of S. frugiperda were recorded using the scale, the rangers were., 0) no damage, 1) leaf scraped, 2) leaf pierced, 3) leaf torn, 4) damage in cartridge, 5) cartridge destroyed. The average number of clutches did not differ significantly among the three phenological stages of the culture, but average clutch size (number of eggs) was significantly smaller for the stage of 4-6 leaves. However, there was a significant interaction with respect to the number of clutches between position in the plant (lower, middle, and upper) and phenological stage, and between leaf surface and phenological stages. There were significant differences among tillage systems for corn in monoculture and corn intercropped with bean.
Advances in legume breeding for better livelihoods of smallholder farmers in ...ICRISAT
Despite their many benefits, productivity of legumes in sub-Saharan Africa (SSA) is generally lower than world averages due to:Biotic stresses (diseases, pests, weeds), Abiotic stresses (heat, frost, drought, and salinity) and Edaphic factors (associated with soil nutrient.
deficits). Reference sets developed for assorted legumes and traits of agronomic importance identified for further crop improvement.
Spatial-temporal variation of biomass production by shrubs in the succulent k...Innspub Net
Forage production in arid and semi-arid rangelands is not uniform but varies with seasons and in various landscapes. The aim of this study was to investigate the spatial and temporal variation in forage production in RNP. Plants sampling was carried out in 225 plots distributed in each of the five vegetation types. In each vegetation strata, sampling points was based on proximity to an occupied stock post, a rain gauge, a foothill and flat plains. A total of were measured in the 5 study sites. Line Intercept Method in combination with harvest method were used in ground measurement of biomass production. To assess biomass production using remote sensing technique, par values were obtained from Moderate Resolution Imaging Spectroradiometer (MODIS) imageries which consisted of 8 days composite images at spatial resolution of 1km² pixel size. There was positive correlation between line intercepts and biomass production Biomass production was higher in succulent Karoo biome than in desert biome. There was a strong relationship between biomass production with rainfall and with fpar values. Since leaf and stem succulents’ plants were found to contribute the highest amount of forage production in RNP, they should be given conservation priority.
Advances in legume breeding for better livelihoods of smallholder farmers in ssaTropical Legumes III
#DYK the benefits of legumes: It intensify cropping systems as double, catch, relay and intercrops; Provide ‘free’ nitrogen to soils through atmospheric nitrogen fixation; Act as break crops for disease and pest cycles; Increase and diversify smallholder farmers’ incomes and Increase household diet quality with plant proteins and micronutrients.
Influence of some site factors on germinative parameters of Quercus seedsAI Publications
The genus Quercus has a high economic and ecological potential in Mexico. Nonetheless, its populations are reducing yearly, which demands the implementation of efficient management strategies to preserve them. To determine germinating capacity of seeds, and to learn about their relationship with some conditions of collecting sites (latitude N, accumulated degree-days >5 C in the frozen-free period (AD), precipitation of growing season (PGS)) we used information of seeds and collecting sites for natural populations of Quercus crassifolia, Q. jonesii, Q. polymorpha and Q. potosina. We determined that Q. potosina, the northernmost population; showed higher values of seeds mean weight, percentage of germinated seeds (PGS), average germination time (AGT), peak value (PV), and germination energy (GE), than other species. Q. polymorpha also showed high mean values of seeds weight, PGS, PV, and GE and it was collected at northern latitudes near those of Q. crassifolia and Q. jonesii. Q. jonesii was the southernmost population and showed lower values in these parameters. On the other hand, the analysis also determined that Q. jonesii, Q. plymorpha, and Q. potosina had quicker germination than Q. crassifolia. We inferred that for the species in the analyzed sites, increasing PGS improves sites conditions, which promotes better germination of germplasm.
The International Journal of Engineering and Science (The IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
Phenotypic Correlation and Heritability Estimates of some Quantitative Charac...Premier Publishers
Heritability and phenotypic estimates of some quantitative traits and its influence on different nitrogen fertilizer levels give the room for recombinants which become a prerequisite for any breeding study. Genetic variation in quantitative traits for the development for new variety of crop plant with different nitrogen fertilizer levels. Base on this background, the study was conducted in order to evaluate the quantitative traits from advanced blast-resistant rice varieties in order to establish relationship between yield and yied components using genetic variances.To achieve this objective, two field studies were carried out in Malaysia during the cropping season 2017/2018. Sixteen advanced blast-resistant rice genotypes were studied in order to find out phenotypic correlation and heritability in some quantitative characters to determine the effect of various levels of Nitrogen fertilizer. The field experiment was conducted in a split-plot design replicated three times in a plot of 35 × 28.5 m2. The planting distance was 25 × 25 cm and the plot size was 2 × 1.5 m2 unit for genotype in each replication. There was a highly significant variation among the genotypes in response to to nitrogen levels, high PCV, GCV, heritability, relative distance and genetic advance which indicated that different quantitative traits especially tonnes per hectare (Tha), grain weight per plot (GWTPP) and kilogram per plot (kgplot) significantly influence the yield trait. . Similarly, high heritability (>60%) was observed indicating the substantial effect of additive gene more than the environmental effect. Yield per plant showed strong to low positive correlations (푟 = 0.99 - 0.09) at phenotypic level for grain weight per plot (GWTPP), number of tillers per hill (NTH), number of panicle per hill (NPH) and kilogram per plot (kg/plot).
The use of plants extracts in the improvement of cowpea yield at dang (Ngaoun...Innspub Net
In the substitution of chemical insecticides with potential biopesticides, the efficiency of Lippia multiflora, Plectranthus glandulosus and Callistemon rigidus were evaluated on the improvement of cowpea (Vinia unguiculata) in Dang (Ngaoundere, Cameroon). The experiment was conducted in a completely randomized block design with 5 treatments repeated 4 times each: the negative control, the positive control (Decis), L. multiflora, P. glandulosus and C. rigidus. These different insecticides were sprayed on cowpea plants with 14 days interval starting from the 14th day after sowing. The parameters collected were the diversity of insect pests, the number of pods, and the dry weight of the grains. All of the insecticides used improved cowpea yields. Although less efficient than Decis, most biopesticides significantly (p < 0.001) improved the yield of cowpeas compared to the negative control. This improvement was 260% for C. rigidus, and 120% for P. glandulosus. These results suggest that C. rigidus, P. glandulosus and L. multiflora could be considered as potential substitutes for chemical insecticides in improving cowpea yields.
The use of plants extracts in the improvement of cowpea yield at dang (Ngaoun...Innspub Net
In the substitution of chemical insecticides with potential biopesticides, the efficiency of Lippia multiflora, Plectranthus glandulosus and Callistemon rigidus were evaluated on the improvement of cowpea (Vinia unguiculata) in Dang (Ngaoundere, Cameroon). The experiment was conducted in a completely randomized block design with 5 treatments repeated 4 times each: the negative control, the positive control (Decis), L. multiflora, P. glandulosus and C. rigidus. These different insecticides were sprayed on cowpea plants with 14 days interval starting from the 14th day after sowing. The parameters collected were the diversity of insect pests, the number of pods, and the dry weight of the grains. All of the insecticides used improved cowpea yields. Although less efficient than Decis, most biopesticides significantly (p < 0.001) improved the yield of cowpeas compared to the negative control. This improvement was 260% for C. rigidus, and 120% for P. glandulosus. These results suggest that C. rigidus, P. glandulosus and L. multiflora could be considered as potential substitutes for chemical insecticides in improving cowpea yields.
Annual Biomass Production, Chemical Composition and In- sacco Degradability o...IJEAB
Types of plant cultivars and seasons often affect production and productivity of fodder biomass and nutritional quality to animals. Selection of suitable cultivars and better understanding of year round biomass production are indispensable for improving quality feed supply to animals. Black Seed Moringa (BSM-L) and White Seed Moringa (WSM), the two local cultivars and Black Seed Moringa (BSM-T) cultivar of Thailand origin of Moringa oleifera were cultivated in the fodder research field of the Bangladesh Livestock Research Institute (BLRI) during the period of 19 August 2014 to 23 December 2015. An agronomical trial was conducted to determine the biomass yield of the three cultivars in different seasons of a year under common agronomical practices. The effect of the cultivars on the daily relative growth rate (RGR), chemical composition and in-sacco dry matter (DM) degradability were also evaluated. The cultivar response to biomass production performances, chemical composition and nutritional values were analyzed in an ANOVA of a Randomized Block Design (RBD), while the differences in the rate and extent of the DM degradability in-sacco determined using three rumen cannulated bulls were analyzed in an ANOVA of 3x3 Latin Square Design. The annual biomass yield of BSM-L tops (114.5 t/ha fresh; 22.7 t/ha DM) was significantly higher than that of WSM (29.0 t/ha fresh; 5.80 t/ha DM) or BSM-T (83.5 t/ha fresh; 16.0 t/ha DM). No significant difference in chemical composition (224.9, 222.4 & 223.8 g.kg-1 DM of crude protein (CP), respectively, and 450.9, 455.3 & 435.4 g.kg-1 DM of neutral detergent fiber, respectively) or nutritional value (47.4, 46.7 & 45.3% of potential, and 62.8, 64.2 and 63.6% of effective degradability of dry matter) was found for the cultivars. BSM-L had a significantly higher survivability (97.2%), prune number per plant (3.50) and RGR (15.6 mg DM/day) than WSM (25.0%, 2.30 & 4.20 mg DM/day) or BSM-T (55.6%, 3.10 & 10.8 mg DM/day) respectively. The hot and dry, and hot and humid climate having a Heat Index (HI) range of 25o to 35o F and monthly total rainfall of 130 mm to 332 mm were suitable for cultivation of all the Moringa cultivars. It was concluded that considering biomass production and its quality in terms of chemical composition and nutritional values, Black Seed Moringa (Moringa oleifera) may be cultivated as a plant fodder crop for the production of feed for ruminant animals.
Climate and potential habitat suitability for cultivation and in situ conserv...Innspub Net
Sustainable management actions are needed for several indigenous agro forestry plant species like the black plum (Vitex doniana Sweet) because they are facing increasing pressures due to the rapid human growth and threats such as climate change. By combining species distribution modelling using the Maximum Entropy Algorithm (Max Ent) and representation gap analysis, this study accessed the impacts of current and future (2050) climates on the potential distribution of Vitex doniana in Benin with insight on the protected areas network (PAN). The model showed a high goodness-of-fit (AUC = 0.92 ± 0.02) and a very good predictive power (TSS = 0.72 ± 0.01). Our findings indicated annual mean rainfall, annual mean diurnal range of temperature and mean temperature of the driest quarter as the most important predictors driving the distribution of V. doniana. Under current climate, about 85 % of Benin area is potentially suitable for its cultivation. This potential suitable area is projected to increase by 3 to 12 % under future climatic conditions. A large proportion (76.28 %) of the national PAN was reported as potentially suitable for the conservation of the species under current climate with increase projections of 14 to 23 % under future climate. The study showed that V. doniana can be cultivated in several areas of Benin and that the PAN is potentially suitable for its conservation. These findings highlighted some of the opportunities of integrating V. doniana in the formal production systems of Benin and also its potentialities in ecosystems restoration under the changing climate. Get the full articles at: http://www.innspub.net/ijaar/climate-and-potential-habitat-suitability-for-cultivation-and-in-situ-conservation-of-the-black-plum-vitex-doniana-sweet-in-benin-west-africa/
Genotype by Environment Interaction on Yield Components and Stability Analysi...Premier Publishers
Newly developed varieties can only contribute to increased productivity if high producing varieties are released in production niches they are adapted to. In order to enhance adoption of new improved cassava varieties in western Kenya, a study was conducted to evaluate the effects of genotype by environment interaction (GEI) on agronomic and farmer preferred traits of cassava and to asses yield stability of 16 cassava genotypes. The study was conducted in randomized complete block design with three replications across five different environments of western Kenya. AMMI analysis of variance identified highly significant (P= 0.001) GEI effects for plant height, height at first branching, and fresh root yield. Generally, GEI effects accounted for 14.98%, 24.64% and 28.3% variability in PH, HB, and FRY respectively. GGE biplot analysis shows that MM06/0138, MM96/9308, MM97/0293, MM98/3567, MM06/0074, MM96/4271 were high yielding and stable genotypes. AMMI stability value revealed that genotype MM06/0143 combined high stability for plant height, height at first branching, number of storage roots and fresh root yield. Genotypes MM06/0138, MM98/3567, MM96/9308, MM97/0293, and MM06/0074 outperformed the check in storage roots yield exhibited high yields in farmer preferred traits and were classified as stable genotypes. Therefore, recommended for release to farmers.
Diallel Analysis of Cowpea Cultivar Ife Brown and its MutantsAI Publications
The present investigation of using half diallel analysis in Cowpea cultivar Ife Brown and its three mutants was conducted at Research plot of Department of Agricultural Technology, Federal College of Forestry, Ibadan, Nigeria during the rainy season of 2017. Four parents were used in this study consisting of three (3) mutants (Ife BPC, Ife Brown Yellow, Ife Brown Crinkled) and one (1) putative parent (Ife Brown) that were derived from the Department of Crop Protection and Environmental Biology, University of Ibadan, Ibadan, Nigeria. The present study involves four parents and their seven resultant crosses were grown in a completely Randomized Design with five replications. Analysis of variance for general and specific combining ability(GCA and SCA) revealed that only SCA variances were significant for all the characters. Whereas, comparison of the error mean square of GCA in days to flowering, 100 seed weight and seed yield/plant was higher than the error mean square of SCA thus implying that additive gene action played a more important role in the inheritance of these traits than the non-additive (dominance and epistasis) gene action. Among the parents Ife BPC was observed to be the best general combiner for days to flowering and seed yield/plant. Among the crosses the crosses involving Ife Brown Yellow with Ife Brown in pod length and number of seeds/pod while with Ife Brown Crinkled for days to flowering were recorded. It is evident from present investigation that the hybrid combinations exhibited the high per se performance and sca effect for seed yield per plant and highly promising even in respect of other characters could be advanced by selecting desirable segregants and recombinants in each generation for funneling the new genotype or for using further advanced breeding programme. The present study based on two biometrical analysis (combining ability and genetic components of variances) revealed that the additive and non-additive were involved with preponderance of non-additive gene effects in the inheritance of seed yield and its attributes. It is, therefore, suggested that biparental mating, intermatting of elite segregants and selection at later generations should be followed which meets the requirement of utilizing both types of gene actions.
2 ijhaf dec-2017-3-effect of biochar issued fromAI Publications
Cassava is an important food crop cultivated (75%) by smallholder farmers. However, yields are very low and rarely exceed 17tons/ha-1. A study was carried out at Nkolbisson in the humid forest zone (HFZ) of Cameroon to assess the effect of three types of biochar issued from Cassava (CSb), Ricehusk (RHb), and Corncob (CCb) on the root yield of variety 8034 cassava cultivated along a soil fertility gradient. The biochars were produced using an Elsa pyrolysis technology with carbonisation time of 50-58mins and temperature ranging from 400-6500C. Twelve 8m2 plots were constructed in three sites from the higher elevated, moderately elevated and flat fields.The biochars were applied at 20t.ha-1in three replicationsin a completely randomized design.Results showed that the biochars were high in nutrients containing 4.17-18.15g.kg-1 N, 22.26-42.51 mg.kg-1 P, 2.48-4.18 cmol.kg-1 K and pH (H2O: 7.78-10.81) and were significantly higher than the no-input soil containing 0.79g.kg-1 N, 7.41mg.kg-1 P, 1.42 cmol.kg-1 K and pH (5.68). Cassava root yield was significantly higher (P < 0.05) in RHb plots (23.22 t.ha-1) than CCb (20.53 t.ha-1), CSb (18.67 t.ha-1) and the no-input soil (16.13 t.ha-1). The addition of biochar particularly RHb, increasednutrient uptake in cassava leaves and roots compared with theno-input soil. The study concludes that biochars with higher N, Pand K content tend to increase cassava root yield and suggestsincreasing the quantity of biochar to 40t/ha-1or continuous application in combination with other farming options such as poultry manure, compost or mineral fertilizer tomaximize cassava productivity given the benefits of biochar.
Knowledge of the magnitude of genetic variability, heritability and genetic gains in selection of desirable characters could assist the plant breeder in ascertaining criteria to be used for the breeding programmes. Ten open pollinated maize varieties were evaluated at the Teaching and Research farm, University of Ilorin, Nigeria, during 2005 and 2006 cropping seasons to estimate genetic variability, heritability and genetic advance of grain yield and its component characters. The effect of genotype and genotype by year interaction were significant for ear weight and grain yield, while the effect of year was highly significant (P< 0.01) for all the characters. High magnitude of phenotypic and genotypic coefficient of variations as well as high heritability along with high genetic advance recorded for grain yield, number of grains ear-1, ear weight, plant and ear heights provides evidence that these parameters were under the control of additive gene effects and effective selection could be possible for improvement for these characters. Tze Comp3 C2, Acr 94 Tze Comp5, Tze Comp 4-Dmr Srbc2 and Acr 90 Pool 16-Dt were identified as outstanding genotypes for maize grain yield and should be tested at multilocation for their yield performance.
Irrigation experiments of cocoa tend to concentrate on yield of matured cocoa trees compared to field establishment of young seedlings. Seedling survival leading to optimum population density are fundamental to obtaining maximum yield of crops. The aim of this experiment was to determine the effect of mulching and irrigation on survival of hybrid cocoa clone raised in three different growing media during the establishment phase. The experimental design was a 2 x 2 x 3 factorial arranged in a split-split plot design, with irrigation as the main plot factor, mulching as the subplot factor and growing media as the sub-sub plot factor with three replications. Cocoa pod husk (CPH) was used as the mulching material and each plant received 5kg at a rate of 5.6 t/ha. Irrigation was done daily by applying 4L of water except when it rains. Data was collected on soil moisture, plant height, leaf number, stem girth and plant survival. Results indicated that irrigation and mulching significantly (P<0.01) enhanced soil moisture. Cocoa seedlings raised in topsoil, mulched and irrigated significantly (P<0.05) increased survival rate (94.5%) compared to seedlings raised in soil without irrigation and no mulching (47.1%). Similarly, the survival rate of seedlings raised in growing media M2, mulched and irrigated (93.0%) was significantly (P<0.05) higher than similar seedlings without irrigation (73.4%). However, the survival rate of seedlings raised in M3 without mulching but irrigated was significantly (<0.05) higher 92.1% compared to seedlings raised in M3 mulched and irrigated 67.1%. Irrigation is very important in ensuring high survival rate during early field establishment. Mulching with cocoa pod husk without irrigation did not improve cocoa seedling survival.
Effect of some abiotic factors on the concentration of β- sitosterol of Prunu...Innspub Net
Prunus africana is a medicinal plant which develops in the mountains of several African countries. β-sitosterol can be used as a marker for the control of the product quality of the aforementioned plant in terms of phytotherapy. Farmers and public authorities do not have information on the influence of altitude and chemical characteristics of soils on the concentration of β- sitosterol of P. africana. To contribute to solve the problem, this research, carried out in Cameroon, aims to appreciate the effect of abiotic factors on the above phenotypic character. In nine composite samples of barks taken at different altitudes, the
concentration of β-sitosterol is appreciated via qualitative analyses by Thin Layer Chromatography, High Performance Liquid Chromatography and quantitative analyses by Gas Chromatography coupled with the Mass Spectrometry. The chemical analyses of soils taken under the stems of the aforementioned trees were made. The statistics were carried out using the SAS software. The concentration of β-sitosterol in each population of P. africana varies from zero to 38.65 μg/ml. There is
variability between the averages of the aforementioned concentration with respect to altitude and chemical elements of the soils but the differences are not significant. The Ascending Hierarchical Clustering distributes populations into three groups. These
tools obtained are indispensable for the ground management, the products exploited from this tree species and the production of seeds for creating forest and agro-forest plantations.
We evaluated the oviposition preference and damage capacity of Spodoptera frugiperda on the different phenological stages of corn. Tests were performed at the Assis Chateaubriand Agricultural School (07º10'15" S, 35º51'13" W, altitude 634 meters), municipality of Lagoa Seca, Paraíba State, Brazil, in two areas of 500 m2, with CMS maize hybrid strain and maize intercropped with bean with the spacing of 0.80 x 0.40 m. Eggs and caterpillars were collected weekly on 50 plants randomly sampled in five spots. Height and number of leaves per plant, and damage from caterpillars of S. frugiperda were recorded using the scale, the rangers were., 0) no damage, 1) leaf scraped, 2) leaf pierced, 3) leaf torn, 4) damage in cartridge, 5) cartridge destroyed. The average number of clutches did not differ significantly among the three phenological stages of the culture, but average clutch size (number of eggs) was significantly smaller for the stage of 4-6 leaves. However, there was a significant interaction with respect to the number of clutches between position in the plant (lower, middle, and upper) and phenological stage, and between leaf surface and phenological stages. There were significant differences among tillage systems for corn in monoculture and corn intercropped with bean.
Advances in legume breeding for better livelihoods of smallholder farmers in ...ICRISAT
Despite their many benefits, productivity of legumes in sub-Saharan Africa (SSA) is generally lower than world averages due to:Biotic stresses (diseases, pests, weeds), Abiotic stresses (heat, frost, drought, and salinity) and Edaphic factors (associated with soil nutrient.
deficits). Reference sets developed for assorted legumes and traits of agronomic importance identified for further crop improvement.
Spatial-temporal variation of biomass production by shrubs in the succulent k...Innspub Net
Forage production in arid and semi-arid rangelands is not uniform but varies with seasons and in various landscapes. The aim of this study was to investigate the spatial and temporal variation in forage production in RNP. Plants sampling was carried out in 225 plots distributed in each of the five vegetation types. In each vegetation strata, sampling points was based on proximity to an occupied stock post, a rain gauge, a foothill and flat plains. A total of were measured in the 5 study sites. Line Intercept Method in combination with harvest method were used in ground measurement of biomass production. To assess biomass production using remote sensing technique, par values were obtained from Moderate Resolution Imaging Spectroradiometer (MODIS) imageries which consisted of 8 days composite images at spatial resolution of 1km² pixel size. There was positive correlation between line intercepts and biomass production Biomass production was higher in succulent Karoo biome than in desert biome. There was a strong relationship between biomass production with rainfall and with fpar values. Since leaf and stem succulents’ plants were found to contribute the highest amount of forage production in RNP, they should be given conservation priority.
Advances in legume breeding for better livelihoods of smallholder farmers in ssaTropical Legumes III
#DYK the benefits of legumes: It intensify cropping systems as double, catch, relay and intercrops; Provide ‘free’ nitrogen to soils through atmospheric nitrogen fixation; Act as break crops for disease and pest cycles; Increase and diversify smallholder farmers’ incomes and Increase household diet quality with plant proteins and micronutrients.
Similar to Brunetti et al 2021 Improving CROPGRO for partitioning in Panicum Agron J.pdf (20)
Synthetic Fiber Construction in lab .pptxPavel ( NSTU)
Synthetic fiber production is a fascinating and complex field that blends chemistry, engineering, and environmental science. By understanding these aspects, students can gain a comprehensive view of synthetic fiber production, its impact on society and the environment, and the potential for future innovations. Synthetic fibers play a crucial role in modern society, impacting various aspects of daily life, industry, and the environment. ynthetic fibers are integral to modern life, offering a range of benefits from cost-effectiveness and versatility to innovative applications and performance characteristics. While they pose environmental challenges, ongoing research and development aim to create more sustainable and eco-friendly alternatives. Understanding the importance of synthetic fibers helps in appreciating their role in the economy, industry, and daily life, while also emphasizing the need for sustainable practices and innovation.
The Indian economy is classified into different sectors to simplify the analysis and understanding of economic activities. For Class 10, it's essential to grasp the sectors of the Indian economy, understand their characteristics, and recognize their importance. This guide will provide detailed notes on the Sectors of the Indian Economy Class 10, using specific long-tail keywords to enhance comprehension.
For more information, visit-www.vavaclasses.com
The Roman Empire A Historical Colossus.pdfkaushalkr1407
The Roman Empire, a vast and enduring power, stands as one of history's most remarkable civilizations, leaving an indelible imprint on the world. It emerged from the Roman Republic, transitioning into an imperial powerhouse under the leadership of Augustus Caesar in 27 BCE. This transformation marked the beginning of an era defined by unprecedented territorial expansion, architectural marvels, and profound cultural influence.
The empire's roots lie in the city of Rome, founded, according to legend, by Romulus in 753 BCE. Over centuries, Rome evolved from a small settlement to a formidable republic, characterized by a complex political system with elected officials and checks on power. However, internal strife, class conflicts, and military ambitions paved the way for the end of the Republic. Julius Caesar’s dictatorship and subsequent assassination in 44 BCE created a power vacuum, leading to a civil war. Octavian, later Augustus, emerged victorious, heralding the Roman Empire’s birth.
Under Augustus, the empire experienced the Pax Romana, a 200-year period of relative peace and stability. Augustus reformed the military, established efficient administrative systems, and initiated grand construction projects. The empire's borders expanded, encompassing territories from Britain to Egypt and from Spain to the Euphrates. Roman legions, renowned for their discipline and engineering prowess, secured and maintained these vast territories, building roads, fortifications, and cities that facilitated control and integration.
The Roman Empire’s society was hierarchical, with a rigid class system. At the top were the patricians, wealthy elites who held significant political power. Below them were the plebeians, free citizens with limited political influence, and the vast numbers of slaves who formed the backbone of the economy. The family unit was central, governed by the paterfamilias, the male head who held absolute authority.
Culturally, the Romans were eclectic, absorbing and adapting elements from the civilizations they encountered, particularly the Greeks. Roman art, literature, and philosophy reflected this synthesis, creating a rich cultural tapestry. Latin, the Roman language, became the lingua franca of the Western world, influencing numerous modern languages.
Roman architecture and engineering achievements were monumental. They perfected the arch, vault, and dome, constructing enduring structures like the Colosseum, Pantheon, and aqueducts. These engineering marvels not only showcased Roman ingenuity but also served practical purposes, from public entertainment to water supply.
Unit 8 - Information and Communication Technology (Paper I).pdfThiyagu K
This slides describes the basic concepts of ICT, basics of Email, Emerging Technology and Digital Initiatives in Education. This presentations aligns with the UGC Paper I syllabus.
Read| The latest issue of The Challenger is here! We are thrilled to announce that our school paper has qualified for the NATIONAL SCHOOLS PRESS CONFERENCE (NSPC) 2024. Thank you for your unwavering support and trust. Dive into the stories that made us stand out!
The Art Pastor's Guide to Sabbath | Steve ThomasonSteve Thomason
What is the purpose of the Sabbath Law in the Torah. It is interesting to compare how the context of the law shifts from Exodus to Deuteronomy. Who gets to rest, and why?
2024.06.01 Introducing a competency framework for languag learning materials ...Sandy Millin
http://sandymillin.wordpress.com/iateflwebinar2024
Published classroom materials form the basis of syllabuses, drive teacher professional development, and have a potentially huge influence on learners, teachers and education systems. All teachers also create their own materials, whether a few sentences on a blackboard, a highly-structured fully-realised online course, or anything in between. Despite this, the knowledge and skills needed to create effective language learning materials are rarely part of teacher training, and are mostly learnt by trial and error.
Knowledge and skills frameworks, generally called competency frameworks, for ELT teachers, trainers and managers have existed for a few years now. However, until I created one for my MA dissertation, there wasn’t one drawing together what we need to know and do to be able to effectively produce language learning materials.
This webinar will introduce you to my framework, highlighting the key competencies I identified from my research. It will also show how anybody involved in language teaching (any language, not just English!), teacher training, managing schools or developing language learning materials can benefit from using the framework.
The French Revolution, which began in 1789, was a period of radical social and political upheaval in France. It marked the decline of absolute monarchies, the rise of secular and democratic republics, and the eventual rise of Napoleon Bonaparte. This revolutionary period is crucial in understanding the transition from feudalism to modernity in Europe.
For more information, visit-www.vavaclasses.com
Model Attribute Check Company Auto PropertyCeline George
In Odoo, the multi-company feature allows you to manage multiple companies within a single Odoo database instance. Each company can have its own configurations while still sharing common resources such as products, customers, and suppliers.
Palestine last event orientationfvgnh .pptxRaedMohamed3
An EFL lesson about the current events in Palestine. It is intended to be for intermediate students who wish to increase their listening skills through a short lesson in power point.
2. 3300 BRUNETTI ET AL.
1 INTRODUCTION
Guineagrass [Panicum maximum (Jacq.) syn. Megathyrsus
maximus (Jacq.) BK Simon & SWL Jacobs] is a forage grass
native to Africa and is widely naturalized in the tropics. In
Brazil, the species is the second most cultivated forage grass
and is recommended for regions where annual rainfall ranges
from 800 to 1,800 mm and the soils are well drained with
medium-to-high soil fertility (Muir & Jank, 2004). ‘Tanzânia’
and ‘Mombaça’ guineagrass are the most planted cultivars in
Brazil (Fernandes et al., 2014), and both are tall, bunch-type
tropical grasses.
As for many forage species, guineagrass can be used for
several purposes such as grazing, silage, hay, and bioenergy
source. The harvesting process of forage species is very flex-
ible when compared to annual crops, and varies according to
the purpose of utilization, the manager’s goal, and the tech-
nology that is available. In pasture-based livestock systems,
the forage biomass is harvested by the animal (i.e., grazing),
where green leaf is preferred to stem as it enhances the animal
grazing efficiency and forage nutritive value (Gontijo Neto
et al., 2006). However, because of the difficulty of adjusting
the stocking rate throughout the year, harvesting and grazing
may occur at different frequencies (i.e., period of regrowth)
and intensities (i.e., portion of the total biomass harvested)
with consequences for the animals and the stubble left after
harvest, which is important for pasture regrowth and peren-
nation. This is especially important for tall bunch-type forage
species that tend to accumulate a considerable amount of stem
late in regrowth cycles (Carnevalli et al., 2006). For silage and
bioenergy use, on the other hand, longer regrowth periods may
be beneficial even with the high amount of stem that is accu-
mulated (Jank et al., 2013; Santos et al., 2014).
Mechanistic crop simulation models can aid in the under-
standing of the interaction between plant genetics, environ-
ment, and pasture management (Araujo et al., 2013; Pedreira
et al., 2011) and can be powerful tools to assist decision-
making and planning of forage crop utilization strategies. The
original CROPGRO model was developed in the early 1990s
with the aim of having a model which could be easily adapted
to simulate different species (Boote et al., 1998; 2021). Ini-
tially, the model worked for simulating annual legume crops,
but was later adapted and parameterized for forage grasses
including bahiagrass (Paspalum notatum Fluegge) (Kelly,
1995). However, this early version of the CROPGRO model
for forage grasses worked only with an “annual” approach,
which consistently over-predicted dry matter growth during
cooler months, in part because it required a minimum resid-
ual leaf area index (LAI) to prevent failure and because code
limitations did not allow for winter dormancy or regrowth
after 100% foliage harvest or freeze-kill (Rymph, 2004).
The model was improved for the simulation of perennial
grasses by adding a new storage organ, which aided pas-
Core Ideas
∙ The CROPGRO-PFM model was calibrated for
the guineagrass cultivars Tanzânia and Mombaça
growth.
∙ Improvements were made to biomass partitioning
over phenological stages.
∙ Growth under both warm and cool conditions was
improved.
∙ The improved model is able to simulate short and
long regrowth cycles.
∙ The improved model can simulate a wide range of
forage crops harvesting strategies.
ture regrowth, leading to the development of the CROPGRO-
Perennial Forage Model (PFM) (Rymph, 2004). The PFM
(Rymph, 2004) has subsequently been used successfully for
simulating warm-season grass yield and has been calibrated
for major tropical forage grasses including ‘Xaraés’ palisade-
grass [Brachiaria brizantha (A. Rich.) Stapf syn. Urochloa
brizantha (Hochst. ex A. Rich.) R.Webster] (Pedreira et al.,
2011), ‘Tanzânia’ guineagrass (Lara et al., 2012), ‘Mulato
II’ palisadegrass (Brachiaria hybrid ‘Mulato II’), ‘Tifton 85′
bermudagrass [Cynodon dactylon (L.) pers.] (Pequeno et al.,
2018), and ‘Piatã’ palisadegrass (Bosi et al., 2020).
Despite the unquestionable relevance of these prior peren-
nial forage modeling studies, the data used were mostly
from “short” regrowth cycles (about 28–35 d during warmer
months and a maximum of 63 d during cool months). The
data collected in these studies, therefore, did not allow for
complete parameterization of biomass accumulation and par-
titioning during longer regrowth cycles, where the plants pro-
gressed to more advanced phenological stages. Furthermore,
in most cases (including Lara et al. (2012)), the calibration
was done using data with forage biomass sampled only at
the time of harvest and, thus, appropriate parameterization of
biomass accumulation and partitioning during early regrowth
phases prior to the harvest was not performed with sufficient
confidence. Parameterization of forage biomass accumulation
and partitioning in early, mid- and late phases during regrowth
cycles influences the amount of biomass and plant-part com-
position at diverse phenological stages, and, thus is an impor-
tant aspect for model improvement for extending model use
for different regrowth periods and management scenarios.
The prior CROPGRO-PFM version calibrated for ‘Tanzâ-
nia’ guineagrass by Lara et al. (2012) was never released in an
official version of the Decision Support System for Agrotech-
nology Transfer (DSSAT; Hoogenboom, Porter, Boote, et al.,
2019) and, since then, several improvements have been made
in the CROPGRO-PFM, including N effects on leaf area
expansion and new entry options for initializing the soil
3. BRUNETTI ET AL. 3301
carbon pools. The objective of this research was to improve
the ability of the CROPGRO-PFM to simulate the growth and
biomass partitioning of guineagrass cultivars Tanzânia and
Mombaça during early, mid- to late phenological phases using
a single common species file for both cultivars.
2 MATERIALS AND METHODS
2.1 Field experiments
Two field experiments (a separate site experiment for each
cultivar) were used for model improvement activities. The
‘Tanzânia’ guineagrass dataset originated from an experi-
ment conducted by Moreno et al. (2014) at the University of
São Paulo “Luiz de Queiroz” College of Agriculture (USP-
ESALQ), in Piracicaba, state of São Paulo, Brazil (22˚42′S,
47˚30′W, 546 m asl). This is the same experiment from
which Lara et al. (2012) developed the prior CROPGRO-
PFM parameters for Tanzânia. The plots measured 10 by 4
m, with four replications, and were established on a highly
fertile Kandiudalfic Eutrudox. The harvesting occurred peri-
odically from December 2002 to April 2004 and was per-
formed by mechanical clipping at 35-cm height. From Decem-
ber 2002 through March 2003 and from November 2003
through April 2004, plots were harvested at 35-d intervals,
while during the cooler months (from April to October 2003)
they were harvested at 63-d intervals.
Plots were fertilized immediately after each harvest, and
a total of 250 kg N ha−1 yr−1 and 210 kg K2O ha−1 yr−1
were applied as (NH4)2SO4 and KCL, respectively. To avoid
drought stress, sprinkler irrigation was supplied to keep the
soil water potential above −30 kPa. Whenever the soil mois-
ture dropped below the targeted value, irrigation was supplied,
totaling 1,388 mm yr−1. Weather data, including daily solar
radiation, maximum and minimum temperature and rainfall,
were recorded at a station located at a distance of 2 km from
the experimental site.
To quantify forage accumulation, forage mass above the
35-cm stubble height was sampled within three 0.5 by 2-m
quadrats prior to each harvest. Additionally, the aboveground
mass below the stubble height was determined three times
during the year (first spring–summer cycle, autumn–winter
cycle and second spring–summer cycle) to characterize the
stubble. On these three occasions, the forage mass collected
both above and below stubble height was hand-separated into
live leaf and stem, and dead material fractions. However, for
modeling purposes, only the living leaf and stem were con-
sidered as stubble. The LAI was determined weekly using a
model LAI 2000 plant canopy analyzer (Li-Cor) (Welles &
Norman, 1991). For more details about the field sampling
the reader is referred to Lara et al. (2012) and Moreno et al.
(2014).
Data on Mombaça guineagrass were collected in a field
experiment that was conducted from December 2017 to Jan-
uary 2019 at Embrapa Southeast Livestock, in São Carlos,
state of São Paulo, Brazil (21˚57′42“S, 47˚50′28″W, 860 m
asl). The experiment consisted of an irrigated plot measuring
12.5 by 23 m, where we used two replications for weekly sam-
pling of forage growth attributes during three long regrowth
cycles. The cycles occurred from December 2017 to Febru-
ary 2018, February 2018 to June 2018, and November 2018
to January 2019, totaling 10, 14, and 12 wk for the first,
second, and third regrowth cycles, respectively. Within each
regrowth cycle, cumulative biomass samples were collected
weekly to characterize forage biomass and leaf–stem com-
position at each sampling time. At the end of each regrowth
cycle the entire plot was clipped to 30-cm height. Between the
second and third regrowth cycles, clipping to 30-cm height
was also done every 30–60 d (without any measurements),
depending on the pasture growth rate.
Mombaça guineagrass was sown on 28 Sept. 2017 with the
aid of a seeder using 8 kg of viable seeds per hectare, spaced
0.25 m between lines on a Typic Hapludox. The plot was
clipped twice for pasture establishment and, thereafter, the
experimental regrowth cycles started on 18 Dec. 2017. Dur-
ing the experiment a total of 370 kg N ha−1 was applied, split
over time as three applications of 80 kg N ha−1 as ammonium
nitrate, one application of 80 kg N ha−1 as urea, and one appli-
cation of 50 kg N ha−1 as calcium nitrate. In addition, plots
were fertilized with 87.3 kg ha−1 of phosphorus (P) split into
five applications of 17.5 kg P ha−1 applied as single super-
phosphate and 132.8 kg ha−1 of potassium (K) split into four
applications of 33.2 kg K ha−1 applied as KCl. Sprinkler irri-
gation was applied, if needed, at a rate ranging from 4 to 8 mm
per day based on the readily available water concept, assum-
ing that readily available water amounts to 30% of the total
of 60 mm soil water holding capacity (SWHC) (Pezzopane
et al., 2018). Whenever the soil water content came close to
depleting the readily available water (70% of the SWHC left),
irrigation was supplied, totaling 703 mm yr−1. We computed
a simple soil water balance using estimated values of evapo-
transpiration and measured values of rainfall and irrigation.
The evapotranspiration was estimated by using the FAO56
Penman–Monteith (Allen et al., 1998) equation, while the
rainfall was measured at a weather station located 1 km from
the experimental site (Table 1). Other weather data used in
this study including daily solar radiation, maximum and min-
imum temperature, were recorded at the same weather station
(Table 1).
To quantify and characterize forage attributes during
regrowth, forage mass was sampled weekly by clipping the
biomass above and below the 30-cm stubble within 0.5- by
1.0-m quadrats. The forage mass in the sample was subsam-
pled and then hand separated into living leaf, living stem, and
dead material fractions. Whenever a leaf had 50% or more of
4. 3302 BRUNETTI ET AL.
TA B L E 1 Weather data at the Mombaça experimental site in São Carlos, SP, Brazil
Month/year
Minimum
temperature
Maximum
temperature
Avg
temperaturea Avg radiationb
Accumulated
rain fall
Avg day
lengthb
C˚ MJ m−2 mm h
July 2017 7.1 26.5 16.8 16.6 0.0 10.82
Aug. 2017 9.4 32.7 21.0 16.1 20.2 11.29
Sept. 2017 13.6 33.1 23.3 22.0 39.0 11.91
Oct. 2017 13.6 35.6 24.6 19.0 129.2 12.56
Nov. 2017 13.7 31.5 22.6 21.6 158.8 13.08
Dec. 2017 16.9 32.2 24.5 20.5 272.0 13.32
Jan. 2018 16.6 32.2 24.4 19.0 242.8 13.17
Feb. 2018 16.3 32.8 24.5 19.5 106.0 12.71
Mar. 2018 16.9 32.7 24.8 20.7 203.9 12.11
Apr. 2018 13.9 31.7 22.8 18.6 21.0 11.46
May 2018 7.5 30.6 19.1 16.2 25.6 10.93
June 2018 12.1 29.0 20.5 13.1 0.8 10.68
July 2018 6.6 29.8 18.2 16.1 0.0 10.82
Aug. 2018 6.7 30.6 18.6 16.6 84.0 11.29
Sept. 2018 9.4 34.6 22.0 17.6 56.0 11.91
Oct. 2018 12.0 32.8 22.4 19.7 295.0 12.56
Nov. 2018 15.1 32.0 23.5 19.2 235.4 13.08
Dec. 2018 13.6 33.5 23.6 23.7 186.6 13.32
Jan. 2019 17.1 34.6 25.8 23.7 129.8 13.17
a
Average of maximum and minimum temperatures of the month.
bAverage of daily rate over days of the month.
its tissue senesced (visual assessment), it was considered as
dead material. Subsequently, the living leaf subsample frac-
tion was scanned on a model LI-3100 leaf area meter (Li-Cor).
Additionally, the growth stage, that is, vegetative or reproduc-
tive, of 10–25 tillers was recorded weekly by cutting tillers
longitudinally and visually observing the presence or absence
of floral buds in the apical meristems using a Coleman XTB
Stereoscope Microscope.
2.2 Crop model adaptation
The Cropping System Model (CSM)-CROPGRO-PFM model
that is part of DSSAT Version 4.7.5 was used in this study
(Hoogenboom, Porter, Shelia, et al., 2019; Jones et al., 2003).
We used the species, ecotype, and cultivar files for Tanzânia
taken from Lara et al. (2012) with the addition of two missing
parameters new to the latest DSSAT V4.7.5 version that were
not in the version used by Lara et al. (2012). The new param-
eters describe the N stress effect on specific leaf area and the
reallocation of photosynthates from shoot to root due to N
stress. Hereafter this set of V4.7.5 parameterization (species,
ecotype, and cultivar) will be referred to as “original”.
The fact that guineagrass was grown at two sites under dif-
ferent management conditions aided in the robust parameter-
ization of different aspects of growth. The ‘Tanzânia’ guinea-
grass dataset had data for the entire calendar year, allow-
ing for evaluation of growth under cooler conditions with
short daylength months, aspects not present on the ‘Mombaça’
guineagrass data set. On the other hand, the Mombaça data
set had very long regrowth cycles with weekly sampling that
allowed for the parameterization of biomass accumulation
and partitioning to leaf and stem from very early to very late
maturation phases (approaching stem elongation/reproductive
onset).
With the goal to improve model parameterization, model
simulation outputs were compared to the observed data of the
field experiments. The simulated output variables were above-
ground live biomass, leaf biomass, stem biomass, LAI, and
percentage leaf of aboveground live biomass. Parameters of
various functions in the species file were manually changed,
and then the statistical improvement was evaluated. Statis-
tics were computed across both cultivars because the goal
was to improve model performance over both cultivars and
sites. The statistical indicators used were the root mean square
error (RMSE) and the Willmott agreement index (d-statistic)
(Willmott et al., 1985). It is important to recognize that our
goal was to use a single common species file parameteriza-
tion to simulate both cultivars, and not to distinguish between
cultivars.
5. BRUNETTI ET AL. 3303
TA B L E 2 Total and stable organic carbon, ammonium and nitrate, and properties of soil–water relations used in the soil analysis and initial
conditions for the two experimental sites where the cultivars Tanzânia and Mombaça were grown
Soil analysis Initial conditions Properties of soil–water relations
Layer
Soil organic
carbon C (SOM3) SNH4
+ SNO3
− LL DUL SSAT
cm % mg N kg soil−1 cm3 H2O cm−3 soil
Tanzânia
5 1.74 0.99 0.1 0.8 0.242 0.366 0.48
15 1.74 0.99 0.1 0.8 0.242 0.366 0.48
25 1.1 0.63 0.1 0.8 0.242 0.366 0.48
40 0.7 0.40 0.1 0.8 0.242 0.366 0.48
55 0.4 0.23 0.1 0.8 0.24 0.34 0.48
75 0.4 0.23 0.1 0.8 0.24 0.34 0.49
85 0.36 0.21 0.1 0.8 0.24 0.34 0.49
200 0.36 0.21 0.1 0.8 0.25 0.35 0.49
450 0.1 0.06 0.1 0.8 0.25 0.35 0.49
Mombaça
10 2.82 1.692 63.6 63.6 0.269 0.423 0.497
20 2.82 1.692 32.5 45.4 0.269 0.423 0.497
40 2.04 1.224 52 72.4 0.279 0.405 0.469
60 1.59 0.954 56.6 75.6 0.268 0.382 0.454
80 1.45 0.87 47.8 79.7 0.269 0.378 0.448
100 1.09 0.654 54.3 77.7 0.257 0.36 0.436
200 0.36 0.216 1 1 0.257 0.36 0.436
450 0.36 0.216 1 1 0.257 0.36 0.436
Note. LL, lower limit of plant extractable soil moisture; DUL, drained upper limit; SSAT, saturated soil water content.
2.3 Soil organic matter simulation
The CENTURY module (Gijsman et al., 2002) was selected
instead of the Godwin-based soil organic matter module
(Godwin & Jones, 1991) to simulate the soil organic carbon
(SOC) and soil N. The CENTURY option is recommended for
all CROPGRO-PFM simulations as it accounts for the decom-
position of plant tissue that drops to the soil surface as well as
sloughed roots within the soil, which both occur for perennial
forage species. The model considers three soil organic matter
(SOM) fractions or pools to describe organic carbon (SOC)
in the soil: the active (microbial) soil organic matter exist-
ing in both the surface mulch layer and in the soil (SOM1),
the intermediate soil organic matter (SOM2), and the passive
or stable soil organic matter (SOM3) (Gijsman et al., 2002).
For both study sites, the observed total SOC was input to the
model (Table 2). The SOM3 is also an input (Table 2), but
must be calibrated for each given soil, as SOM3 is not a value
that is easily measured. The SOM1 and SOM2 are calculated
internally by the model as 5 and 95% of the remaining SOC,
respectively.
For the Tanzânia experiment, the values for SOC and
SOM3 proposed by Lara et al. (2012) were used. The ratio
of stable organic carbon fraction (SOM3) to total SOC com-
putes to be 0.57. The initial soil and prior crop residue condi-
tions were also obtained from Lara et al. (2012): ammonium
and nitrate were assumed to be 0.1 and 0.8 mg N kg soil−1
(Table 2), the residue of the previous crop was assumed as
2,000 kg DM ha−1 with 1% of nitrogen (N), incorporated to a
20-cm depth by tillage (Table 2).
For the Mombaça experiment, SOC (Table 2) was mea-
sured to 1-m depth near the experimental site. The assumed
values of stable organic C and residue of the previous crop
were those of Pequeno et al. (2014), as both experiments were
conducted in tropical environments and had pasture as the pre-
vious crop. The ratio of SOM3/SOC was assumed as .6 of
total soil organic carbon (SOC) for each layer (Table 2). The
residue of the previous crop was assumed as 4,000 kg DM
ha−1 of shoot and 4,000 kg DM ha−1 of roots, both with 1%
N, incorporated to a 20-cm depth by tillage. Ammonium and
nitrate in the soil for initial conditions section were measured
near the experimental site (Table 2)
6. 3304 BRUNETTI ET AL.
2.4 Forage harvest simulation
The CROPGRO-PFM relies on several inputs to character-
ize the harvesting conditions. These inputs are provided in
the “MOW” model input file: (a) dates of harvests, (b) the
amount of living stubble left after harvest (MOW, in kg ha−1),
(c) the percentage of live leaves in the stubble (RSPLF), and
a “re-staged” leaf number (MVS) used to define the vegeta-
tive stage (V-stage) at which regrowth begins after harvest.
For the Tanzânia experiment, the MOW file was set based on
the same field data values as observed by Lara et al. (2012).
For the Mombaça experiment, the MOW file was set with
observed data when available (at the beginning and the end of
each regrowth cycle). There were two regrowth cycles (dur-
ing which data were not collected) that occurred between the
second and third regrowth cycles. For those regrowth cycles,
the stubble mass was set to the same as that ending the second
regrowth cycle and the leaf percentage was set to 6% of leaf
in the stubble.
2.5 Soil water holding characteristics
The soil–water properties for the Tanzânia experiment
(Table 2) were the same as those used by Lara et al. (2012). For
the Mombaça experiment, the soil–water properties (Table 2)
were calculated by DSSAT pedotransfer equations, which use
clay, silt, and SOC content as inputs. Those texture and SOC
variables were measured to a 1-m depth next to the experi-
mental site.
The actual crop management, soil characterizations, and
daily weather data for each experimental site were used for
running the model.
2.6 Statistical analysis for model
parameterization and evaluation
The statistics that were used for model parameterization and
evaluation included the RMSE and the Willmott agreement
index (d-statistic) (Willmott et al., 1985).
The equation for RMSE is:
𝑅𝑀𝑆𝐸 =
[
1
𝑁
𝑁
∑
𝑖=1
(
𝑌𝑖 − ̂
𝑌𝑖
)2
]1
2
(1)
where N is the number of observed data points for compari-
son, Yi is a given observed value and ̂
𝑌𝑖 is the correspond-
ing value predicted by the model. The RMSE is low when
the model gives a good prediction. The equation for Willmott
agreement d-statistics is:
𝑑 =
∑𝑁
𝑖=1
(
𝑌𝑖 − ̂
𝑌𝑖
)2
∑𝑁
𝑖=1
(
|
|
|
̂
𝑌 𝑖 − ̄
𝑌𝑖
|
|
|
+ |
|𝑌𝑖 − ̄
𝑌𝑖
|
|
)2
(2)
where N is the number of observed data points for compari-
son, Yi is a given observed value, ̂
𝑌𝑖 is the corresponding value
predicted by the model, and ̄
𝑌 is the mean of observed data.
The d-statistic ranges from 0 to 1, and values near 1 indicate
good model prediction near to observed values while values
near 0 indicate model prediction far from the observed values.
3 RESULTS AND DISCUSSION
First, we discuss model improvement by presenting step-by-
step improvements in d-statistic and RMSE. Then, we dis-
cuss the parameters that were modified for model improve-
ment by showing simulated outcomes of the parameterized
version compared to simulations with the original parameter
values, along with the initial and final parameterized values
of parameters that were modified. The simulated water bal-
ance by the model did not show any drought stress for either
experiment (data not shown) based on input of irrigation and
rain data; therefore no parameters related to drought stress
were modified. Finally, we discuss the importance of the main
model improvements and provide recommendations for fur-
ther model development that is needed for the simulation of
tropical grasses.
3.1 Statistics of sequential steps of model
improvement
There were a total of 34 sequential steps associated with
model improvement, starting with the original version until
the final parameterized version (Figure 1). Some parameters
were modified more than once (there was iteration on several
parameters) until reaching the final value. The RMSE and d-
statistic of the time-series data were computed over both culti-
vars. Because the d-statistic is already normalized within each
variable, an average d-statistic over all five growth variables
(Figure 1a) was computed to show the step-by-step model
improvement, while RMSE is shown separately for leaf, stem
and aboveground live biomass (Figure 1b), leaf percentage in
aboveground live biomass, and LAI (Figure 1c).
The RMSE values were reduced from 2,261 to 1,768 kg
ha−1 for aboveground live biomass, from 1,620 to 874 kg ha−1
for stem biomass, from 11.4 to 7.3% for leaf percentage, and
from 1.91 to 1.68 for LAI, but slightly increased from 1,114
to 1,172 kg ha−1 for leaf biomass. The small RMSE increase
7. BRUNETTI ET AL. 3305
F I G U R E 1 Wilmott d-statistic and root mean square error
(RMSE) for aboveground live biomass, leaf biomass, stem biomass,
leaf area index and percentage leaf on aboveground live biomass of the
cultivars Tanzânia and Mombaça throughout the steps of
parameterization: (a) d-statistic (averaged over all the variables); (b)
RMSE of leaf mass, stem mass, and aboveground live biomass; (c)
RMSE of percentage leaf on aboveground live biomass and leaf area
index
for leaf biomass was considered a minor effect compared with
the much larger RMSE decreases for the other variables. The
d-statistic of model performance averaged over all variables
(Figure 1a) increased from .86 for the original to .93 for the
final parameterization.
3.2 Parameter modifications underlying
model improvement
3.2.1 Parameters affecting biomass
partitioning
Parameters were modified to increase photosynthate partition-
ing to leaf (YLFEST) early during the life cycle and shifting
F I G U R E 2 Original (dashed) and final parameterized (solid)
fraction of photosynthate partitioned to leaf, stem, root, and storage
organ as a function of vegetative stage (V-stage) during the established
perennial phase for guineagrass. The values are defined in the species
file
to stem (YSTEST) late during the life cycle (Table 3). The
first attempt to modify the partitioning parameters (LFEST,
YSTEST, YSREST) had the largest effect toward increas-
ing the average d-statistic (Figure 1a, step 7) and decreas-
ing RMSE of leaf percentage and stem biomass (Figure 1b),
although additional adjustments in these parameters were
done in steps 15 and 19. The parameterization resulted in a
progressive shift from leaf to stem between V-stage 3 to 10,
along with a decrease in partitioning to roots (Figure 2). It
is important to note that leaf number (V-Stage) for the short
regrowth cycles of the Tanzânia experiment only varies from
3 to 7 (sometimes up to 8) during regular harvests at 35 up
to 65 d, and that each harvest triggers a re-set of V-Stage to a
value of MVS = 3.0. Thus, the old and new partitioning func-
tions are not that different in range of 3 to 7 for the short cycles
of Tanzânia, but had major impact for long regrowth cycles of
Mombaça where V-stage approached 9 for the first cycle and
11 for both the second and third cycles. V-stage values of 30
and 40 are there to cover a full upper range for the model, but
are rarely reached in practice. It is worth noting that we did
not parameterize the rate of node appearance toward predict-
ing observed dates of growth stages or leaf number, and that
the reference to simulated V-stage is used only for defining
the dry matter partitioning function.
Early during regrowth of tropical forage species, biomass
production is composed mostly of leaf, thus restoring the
8. 3306 BRUNETTI ET AL.
TA B L E 3 Initial (Lara et al., 2012) and final values of species parameters affecting biomass partitioning (during perennial/ established phase)
modified in species genetics file (SPE) of guineagrass for the simulation of Tanzânia and Mombaça cultivars and the steps at which the parameters
were modified throughout parameterization
Parameter (and step) Description Initial value Final value
XLFEST (not changed) Leaf number or vegetative stage
at which the partitioning is
defined
0.0, 2.0, 3.0, 5.0,
7.0, 10.0, 30.0, 40.0
0.0, 2.0, 3.0, 5.0,
7.0, 10.0, 30.0, 40.0
YLFEST (7, 15, 19)a
Dry matter partitioning to leaf as
a function of V-stage, fraction
0.63, 0.61, 0.68, 0.74, 0.64, 0.59,
0.41, 0.41
0.95, 0.95, 0.95, 0.82, 0.51, 0.25,
0.25, 0.25
YSTEST (7, 15, 19)a Dry matter partitioning to stem as
a function of V-stage, fraction
0.10, 0.10, 0.20, 0.16, 0.19, 0.22,
0.16, 0.16
0.01, 0.01, 0.01, 0.11, 0.39, 0.65,
0.65, 0.65
YSREST (7, 15, 19)a Dry matter partitioning to storage
as a function of V-stage,
fraction
0.01, 0.01, 0.01, 0.02, 0.02, 0.03,
0.03, 0.03
0.02, 0.02, 0.02, 0.02, 0.03, 0.03,
0.03, 0.03
SDLEST (22) Photothermal days from sowing
to established pasture, ˚C
25 30
a
Parameters with more than one step are due to iteration. The final values were set in the final steps of each parameter, while the intermediate values (not shown) were set
in preceeding steps.
LAI for photosynthesis for ensuring rapid regrowth (Da Silva
& Nascimento Júnior, 2007). However, late in the regrowth
cycle a considerable amount of biomass is allocated to stem
(Carnevalli et al., 2006; Congio et al., 2018), including during
long vegetative regrowths (Santos et al., 1999). The late stem
accumulation is particularly important to simulate correctly
for tall bunch-type forage species such as guineagrass because
the amount of stem accumulated is quite high (Carnevalli
et al., 2006). The modified partitioning increased the percent-
age leaf in the early cycle while decreasing it significantly
from the midpoint to late V-stage (later in regrowth cycle),
allowing for a much better simulation of percentage leaf in
the live aboveground biomass for Mombaça while maintain-
ing an already good prediction for Tanzânia (Figure 3). Sim-
ilarly, the parameterization increased the stem mass accumu-
lation from the midpoint to the end of three cycles for Mom-
baça, and consequently, the aboveground live biomass dur-
ing the same period, showing a much better fit for these vari-
ables (Figures 4b and 5b). On the other hand, the parameter-
ization had almost no effect on stem and aboveground live
biomass simulations for Tanzânia, which were already good
(Figures 4a and 5a). The simulated leaf biomass was some-
what underestimated towards the end of the second and third
cycles of Mombaça after changing the partitioning, but with
small consequences for the fitting of the regrowth (Figure 6b).
For Tanzânia there was almost no change in leaf biomass,
which was predicted well after parameterization (Figure 6a).
3.2.2 Parameters affecting senescence
Senescence due to excessive self-shading by the canopy was
decreased by lowering the light compensation point at which
lower leaves abscise (ICMP; Table 4) and increasing the half-
F I G U R E 3 Original and parameterized simulated percentage leaf
of aboveground live biomass as a function of date for Tanzânia in (a)
Piracicaba and (b) Mombaça in São Carlos
life time constant at which leaves under the light compensa-
tion point abscise (TCMP). These changes allowed the plants
to carry more leaves even with a large LAI, improving the sim-
ulation of leaf accumulation, and LAI, even in long regrowth
cycles, as is the case for Mombaça (Figures 6b and 7b, respec-
tively).
The natural heat-unit related senescence of leaves (LFSEN)
was decreased (Table 4) and also resulted in a decrease in
senescence. The leaf life span with the parameterized value
9. BRUNETTI ET AL. 3307
TA B L E 4 Initial (Lara et al., 2012) and parameterized values of parameters affecting aboveground biomass accumulation (senescence,
photosynthesis, dormancy, and N stress) modified in species (SPE), ecotype (ECO), and cultivar (CUL) genetics files of guineagrass for the
simulation of the Tanzânia and Mombaça cultivars and the steps at which the parameters were modified throughout the parameterization
Parameter (and step) Description and associated genetics input file Initial value Final value
ICMP (9) Light compensation point (mol PPFD m−2 d−1) for abscission of
lower leaves due to excessive self-shading by crop canopy (SPE)
1.17 0.8
TCMP (10) Time constant (days) for abscission of lower leaves due to excessive
self-shading by crop canopy (SPE)
13.1 20
LFSEN (8, 14)a Natural leaf abscission rate/photothermal day (0.015 means 66.67 d
of life span) (SPE)
0.02 0.015
PORPT (11, 13)a Stem abscission as a function of the abscised leaf mass (gram stem
per gram leaf abscised) (SPE)
0.27 0.15
LFMAX (12, 33)a Maximum photosynthetic rate at 30 ˚C, 350 μL L−1 CO2, and
saturating light, mg CO2 m2 s−1 (CUL)
1.91 1.91 (changed in
step 12 but
reverted to
original in step
33)
XLMAX (17, 20, 27)a
Relative rate of photosynthetic electron transport in response to
temperature; linear shape, first values defines base (0.0) and
second value defines maximum (1.0), ˚C (SPE)
8.7, 33.4 8.0, 40.0
FNPGL (21, 23, 34)a Relative effect of minimum night temperature on next day’s leaf
light-saturated photosynthesis rate; quadratic shape, first value
defines base (0.0) and second defines maximum (1.0), ˚C (SPE)
5.9, 17.4 7.8, 18.0
FNPTD (16, 24, 31)a Daylength effect on partitioning to storage (and away from shoot),
first value defines maximum to storage, second is minimum to
storage, h (SPE)
9.1, 13.5 10.8, 13.7
RDRMT (26, 32)a Relative partitioning/dormancy sensitivity, daylength effect on
partitioning (ECO)
0.299 0.35
NSTFAC (30) Reallocation of photosynthates from shoot to root due to N stress
(0–1) (SPE)
0.7 0.8
a
Parameters with more than one step are due to iteration. The final values were set in the final steps of each parameter, while the intermediate values (not given) were set
in the preceeding steps.
is about 67 d, similarly to the 70 to 80 d found by Silveira
et al. (2010), who studied the leaf life span of four cultivars of
guineagrass under free growth. The stem portion to abscise
dependent on leaf abscission (PORPT) was also decreased
(Table 4), which contributed to the greater stem mass accu-
mulation for the parameterized Mombaça simulations (Fig-
ure 4b). It is important to appreciate that the CROPGRO-PFM
originated from a model which simulated grain legumes such
as soybean [Glycine max (L.) Merr.], which has leaf and peti-
ole abscission. However, forage grasses tend not to abscise
leaves (rather they die and hang on despite senescence) and
forages do not abscise stem tissue (grasses lack petioles). To
accomplish this, leaf senescence (abscission from shading and
aging) and stem abscission were reduced. Furthermore, in for-
age grasses the leaf sheath senesces after leaf laminae senesce,
but in reality, the dead leaf sheath material remains on the
plant allowing for greater stem accumulation and is included
in stem mass in the model.
The parameterization of senescence was performed from
steps 8 to 14 and had particular importance for decreasing
RMSE and increasing d-statistic of many growth variables
(Figure 1), mainly because less abscission of leaf and stem
increased production in long regrowth cycles with signifi-
cant self-shading, as those of the Mombaça experiment. The
model is capable of simulating abscised dead tissue with time
after each harvest cycle, and the comparison of simulated to
observed dead foliage mass (data not shown) also confirmed
the need to reduce the rate of leaf and stem mass abscission.
The slight under-estimation of leaf mass toward the end of
the second and third cycles indicates that we possibly did not
sufficiently reduce rate of leaf abscission during late stages,
but we were hesitant to push it further. Available data on dead
foliage mass are scarce and there are also sampling issues such
as the extent of dead mass carried over from prior regrowth
cycles and the extent of dead mass lost to the soil surface due
to wind, rainfall, and animal tracking.
10. 3308 BRUNETTI ET AL.
F I G U R E 4 Original and parameterized simulated stem biomass
as a function of date for (a) Tanzânia in Piracicaba and (b) Mombaça in
São Carlos
F I G U R E 5 Original and parameterized simulated aboveground
live biomass as a function of date for (a) Tanzânia in Piracicaba and (b)
Mombaça in São Carlos
F I G U R E 6 Original and parameterized simulated leaf biomass as
a function of date for Tanzânia in (a) Piracicaba and (b) Mombaça in
São Carlos
F I G U R E 7 Original and parameterized simulated LAI as a
function of date for Tanzânia in (a) Piracicaba and (b) Mombaça in São
Carlos
11. BRUNETTI ET AL. 3309
3.2.3 Parameters affecting photosynthesis
Photosynthesis parameterization aided on increasing produc-
tion during warm months. Therefore, the optimum tempera-
ture for the relative rate of photosynthetic electron transport
in response to instantaneous hourly temperature for photosyn-
thesis (XLMAXT) was increased to 40 ˚C (Table 4), ben-
efiting both Tanzânia and Mombaça aboveground biomass
simulation (Figure 5). This value is consistent with the
known optimum temperature for C4 photosynthesis (Pearcy
& Ehleringer, 1984). This change was sufficient to increase
production under good conditions and, therefore, the light-
saturated leaf photosynthesis (LFMAX), which was the same
for both cultivars, was not changed from the original value
(Table 4).
For the Tanzânia trial, data were also collected during the
coolest months of the year (June–August), bringing out the
need for parameterizing growth under cool conditions. The
base temperature for photosynthesis was increased to reduce
production during the cool months for Tanzânia. Specifically,
the base temperature threshold for relative rate of photosyn-
thetic electron transport in response to instantaneous hourly
temperature (XLMAXT) (Table 4) was increased, and the
function (FNPGL) that reduces photosynthesis during the fol-
lowing day as a function of night temperature (Tmin) was
made more sensitive to cold night temperature, which is
described by an asymptotic function with a base and an opti-
mum (Table 4). These changes were applied iteratively in sev-
eral steps with other parameters throughout parameterization
(Table 4 and Figure 1) and they improved aboveground live
biomass simulations for Tanzânia (Figure 5a).
3.2.4 Parameters for daylength effect on
shifting photosynthate from shoot to storage
organ
Along with the parameterization of photosynthesis under cool
conditions, the daylength effect on dormancy was modified
to reduce the allocation to aboveground live biomass and
increase the allocation to storage tissue organs under short
days. The CROPGRO-PFM model is coded to allow assim-
ilate allocation to storage organs to increase and the alloca-
tion to the shoot to decrease under short daylengths, which is
a type of dormancy. The critical daylength range as described
by a pair of daylengths (FNPTD; Table 4) was modified. The
lowest daylength value for maximum allocation to storage
was increased from 9.1 to 10.8 h, which increased the allo-
cation to storage and that reduced shoot growth during win-
ters. The maximum daylength value for highest partitioning
to shoot was increased slightly from 13.5 to 13.7 h. In addi-
tion, the relative strength of the daylength effect for partition-
ing photosynthate to storage organ (RDRMT; Table 4), was
F I G U R E 8 Original and parameterized simulated storage organ
and root biomass as a function of date for Tanzânia in (a) Piracicaba
and (b) Mombaça in São Carlos
increased, which also decreased aboveground biomass under
short days. The parameterization of sensitivity to daylength
was performed in several steps throughout the modeling exer-
cise (Table 4; Figure 1), and improved aboveground live
biomass accumulation simulation, especially for Tanzânia
(Figure 5a).
The CROPGRO approach for shifting the photosynthate
allocation from the shoot toward the storage organ, for exam-
ple, the stem base and root, under short days, has been used
successfully to simulate seasonal growth dynamics and winter
dormancy of other tropical perennial grasses including bahi-
agrass, palisadegrass, and the prior version of guineagrass
(Lara et al., 2012; Pedreira et al., 2011; Rymph, 2004). After
parameterization, the simulations show long-term stability of
storage organ and root biomass over years (Figure 8), which
allows for the perennation of the plant and facilitates long-
term simulations for model applications.
3.2.5 Parameters for N stress effect on
shifting partitioning from shoot to root and on
leaf area expansion
The simulated N stress was relatively severe (Figure 9) for
Tanzânia, whereas there was no simulated N stress for Mom-
baça (data not shown). Thus, the Tanzânia experiment brought
the need of parameterizing conditions under N stress, which
12. 3310 BRUNETTI ET AL.
F I G U R E 9 Nitrogen stress factor simulated with the
parameterized version as a function of date for Tanzânia in Piracicaba
has a significant impact on warm-season grass growth. Mom-
baça simulated no N stress due to the high levels of both nitrate
and ammonium that were present at the start of the experiment
and defined in the initial conditions (Table 2). In contrast, the
smaller amount of initial nitrate and ammonium, total soil C
as well as low prior crop residue resulted in simulated N stress
for Tanzânia.
The effect of N stress on shifting the partitioning from
shoot to root is controlled by a new parameter (NSTFAC),
which was set to 0.8 (the prior value was hard-coded at 0.7
in the model). The effect of increasing the partitioning to
roots whenever N stress occurred in the Tanzânia trial, pro-
vided a better fit to Tanzânia aboveground live biomass sim-
ulation (Figure 5a). Additionally, the CROPGRO-PFM has a
parameter that allows N stress effect to reduce leaf expansion
(NSLA). This parameter was reduced from the default value
of 1.0 to 0.7 (Table 5), decreasing the effect of N stress on
reducing LAI expansion, which improved the simulation of
LAI for Tanzânia (Figure 7a).
3.2.6 Parameters affecting prediction of
specific leaf area and leaf area index
Specific leaf area (SLA) was not considered in optimiza-
tion because SLA of Mombaça showed unusual patterns of
thin leaves early during each cycle with subsequent thick-
ening, whereas this did not occur for Tanzânia (SLA data
are not shown). Simulated SLA with the original param-
eters showed an underestimation for both cultivars during
all regrowth cycles. To increase SLA and thus LAI, the
SLAMIN, SLAREF, and the cultivar-specific SLA (SLAVR)
parameters were all set at 180 cm2 g−1 (Table 5), which pro-
vided simulations with a higher specific leaf area, and, con-
sequently, a higher LAI under good conditions when com-
pared to the simulations with original model parameters. This
allowed for a better fit of LAI for Tanzânia and Mombaça
(Figure 7). The changes were made from steps 2 to 4 and 29
(Table 5), and the final values (set on step 29), resulted in a
considerable decrease in RMSE of LAI (Figure 1c).
The effect of cool temperature on leaf expansion and the
effect of low radiation regime can affect seasonal SLA and
LAI during the cool months. The temperature effect on SLA
of newly produced leaves (XSLATM and YSLATM, Table 5)
was optimized. The threshold temperature (XSLATM) at
which maximum reduction of SLA occurs and the degree of
reduction (YSLATM) on leaf expansion was increased. This
allowed for a larger effect of cool temperature to reduce SLA
and LAI. Furthermore, the thinnest leaf under very low light
TA B L E 5 Initial (Lara et al., 2012) and parameterized values of parameters affecting leaf area index (LAI) modified in species (SPE), ecotype
(ECO), and cultivar (CUL) genetics files of guineagrass for the simulation of the Tanzânia and Mombaça cultivars and the steps at which the
parameters were modified throughout the parameterization
Parameter (and step) Description (and parameter’s file) Initial value Parameterized value
SLAVRa
(4, 29)
Specific leaf area of cultivar under standard growth
conditions, cm2 g−1 (CUL)
175 180
SLAREF (2, 29)a Specific leaf area of standard cultivar, cm2 g −1
(SPE)
166 180
SLAMIN (3, 29)a The thickest leaves under high light, cm2 g−1 (SPE) 137 180
SLAMAX
(28, 29)a
The thinnest leaves under low light, cm2
g−1
(SPE) 356 320
XSLATM (5, 25)a Relative effect of temperature on specific leaf area of
newly formed leaves, ˚C (X vs. Y pair) (SPE)
11.8, 26.6 12.7, 26.6
YSLATM (6) Relative effect of temperature on specific leaf area of
newly formed leaves, fraction reduction (X vs. Y
pair) (SPE)
0.39, 1.00 0.30, 1.00
NSLA(28) N effect on specific leaf area (SPE) 1 0.75
aParameters with more than one step are due to iteration. The final values were set in the final steps of each parameter, while the intermediate values (not given) were set
in the preceeding steps.
13. BRUNETTI ET AL. 3311
(SLAMAX) was decreased (Table 5), which also reduced
SLA under the low light conditions of winter. The parame-
terization of low temperature and low radiation effects on leaf
expansion allowed for a better fit of LAI for Tanzânia dur-
ing cool months (Figure 7a). The changes of these parameters
were done iteratively throughout parameterization (Table 5)
and resulted in an improvement of model performance (Fig-
ure 1), mainly due to the seasonality on LAI in the Tanzânia
trial.
3.3 The importance of model improvements
for applications
The flexibility in harvest date for perennial forages allows for
different harvest frequencies and intensities when compared
to annual crops. Harvest may occur at different frequencies,
that is, regrowth durations, and intensities, that is, portion har-
vested/total biomass available, depending on the manager’s
goal and technology available. In pasture-based livestock sys-
tems, green leaf accumulation is preferred to stem accumula-
tion, as greater leaf proportions favor enhanced grazing effi-
ciency and forage nutritive value (Gontijo Neto et al., 2006).
In practice, regrowth duration varies considerably despite rec-
ommendations to set optimum harvest time to avoid excess
stem accumulation (Carnevalli et al., 2006; Congio et al.,
2018). The forage availability for the animals varies through-
out the year and between years as a consequence of edapho-
climatic conditions (Brunetti et al., 2020) and stocking rate.
Adjusting the stocking rate is not an easy task and, there-
fore, variations in the harvest frequency occur and, thus, the
pasture may be harvested during several phenological stages.
These variations, in turn, have consequences on animal per-
formance and composition of the stubble, with further conse-
quences for the next regrowth. On the other hand, some man-
agement practices may benefit from longer regrowth cycles.
For silage, longer regrowth cycles are advisable as longer
cycles increase the dry matter and soluble carbohydrate con-
centration, which, in turn, favors the development of lactic
acid bacteria and silage fermentation process (Santos et al.,
2014), despite causing negative effects for the forage nutritive
value (Vasconcelos et al., 2009). Additionally, there is a grow-
ing interest for use of highly productive grasses as guinea-
grass in long regrowth cycles as bioenergy source (Jank et al.,
2013). Thus, the model with robust biomass partitioning in
long cycles including early, mid- and late cycle, and better rep-
resentation of self-shading effects caused by high LAIs which
is common in long cycles on leaf and stem senescence will aid
planning and decision-making for diverse harvesting practices
and understanding animal and plant responses.
The previous versions of CROPGRO-PFM were parame-
terized for data collected only at the harvest date, and, thus
were lacking data on partitioning to leaf and stem during
early regrowth starting immediately after cutting (Lara et al.,
2012; Pedreira et al., 2011; Pequeno, 2014; Pequeno et al.,
2018). Additionally, the cycles of those previous studies were
“short”, ranging from 28 to 42 d during warm months and
65 d during cooler months, and probably the forages barely
approached stem elongation and extreme self-shading by high
LAIs. By contrast, the cycles of Mombaça in the present study
extended 70–98 d and the plants approached stem elonga-
tion/flowering and high self-shading. Therefore, the detailed
time-series data on forage mass and partitioning from very
early to very late cycle for Mombaça, allowed for a more
robust parameterization of biomass accumulation in long
cycles along with partitioning to leaf and stem during cycles
of varying durations, as shown by the major improvement in
statistics. Detailed time-series data on forage regrowth imme-
diately after cutting, while useful, are scarce in forage exper-
iments, because taking frequent destructive samples down to
the soil surface affects pasture regrowth, thus requiring that
those sampled areas are excluded during any later sampling.
In this study we were also able to improve parameterization
of the seasonality of production, for example, cool tempera-
ture and daylength effects, based on the Tanzânia experiment.
This is important for the parameterization of guineagrass as
it is usually grown year-round in the tropics, but the decrease
in forage supply to feed the animals during the winter often
has to be complemented with other feeding sources (Brunetti
et al., 2020). Thus, the model sensitivity to temperature and
daylength is important for planning of pasture-based systems
and for model use considering diverse locations within warm-
season non-freezing climates. Additionally, we parameterized
the two new parameters related to N stress (NSTFAC and
NSLA) that were not present in the version used by Lara
et al. (2012), and now better represent the N stress effects on
guineagrass growth. This aspect is particularly important, as
N is the nutrient with the greatest effect on pasture growth and,
consequently, the most used for increasing biomass accumu-
lation.
3.4 Future model improvements
At the midpoint to end of the second cycle in the Mombaça
experiment, the plants flowered. Guineagrass is a short-day
species (Felippe, 1978; Loch, 1980) with approximate criti-
cal daylength of 11.8 h, when floral initiation can be seen in
reproductive tillers (Araujo et al., 2018). This occurs between
the months of April–September in the latitude of Mombaça
and Tanzânia experiments (the sites are similar in latitude).
The occurrence of the first reproductive tillers (observation
of flower primordia) for the Mombaça trial was on 4 Apr.
2018. Thereafter, the number of tillers with flower primor-
dia increased for about 15 d until the panicles finally started
to emerge. Floral initiation (and flowering) terminates leaf
14. 3312 BRUNETTI ET AL.
initiation and markedly stimulates subsequent stem elonga-
tion which raises the apical meristems in conjunction with
shifting partitioning from leaves to stem. In addition, the new
leaves that had been initiated inside the whorl of leaf sheaths
(boot stage) before differentiation of apical meristem from
vegetative to reproductive, are shorter (smaller) than vege-
tative leaves, which also decreases leaf accumulation. It is
unclear, however, whether the stem elongation in long cycles
is necessarily a prelude to flowering or occurs irrespective
of flowering stimulus during long vegetative growth. In the
present study, no reproductive meristems were observed in the
first and third cycles of Mombaça even with the presence of
high stem elongation (and accumulation), as corroborated by
Araujo et al. (2018). More studies are needed to elucidate stem
elongation, flowering, and their interactions in tropical forage
grasses growth.
Despite the observation of floral buds in the meristems
exclusively in the second cycle of Mombaça, and the uncer-
tainties underlying stem elongation and flowering in the other
two cycles, the parameterized model showed good perfor-
mance for simulating stem and biomass accumulation in the
three cycles (Figures 5b and 6b). The present CROPGRO-
PFM, however, does not simulate flowering, which may be
needed in other studies, depending on the objectives of those
studies. Therefore, model changes are needed to simulate flo-
ral initiation and its relationship to daylength and associated
stem elongation, seed growth, and seed maturation. These
processes were uncoupled with the transition of CROPGRO
from annual to perennial species. The issues are not simple,
because the model will need to re-initiate the juvenile vegeta-
tive state either on an annual basis or after harvesting of the
reproductive tissues.
Future model evaluation against independent experimen-
tal data collected at other locations is recommended to con-
firm the performance of CROPGRO-PFM for these guinea-
grass cultivars grown under both long and short regrowth
cycles. An improvement needed in the DSSAT in general
for all crops, is the creation of automated calibration soft-
ware that makes use of time-series data that are typical for
both perennial and annual crops. Automated calibration was
not possible because the existing automated calibration soft-
ware in DSSAT only uses end-of season grain yield, biomass,
and phenological observations, but does not use the time-
series data typical of perennial forages (He et al., 2010; Hunt
et al., 1993). While unpublished partially automated soft-
ware using time-series data was used for some prior studies
using CROPGRO-PFM (Malik et al., 2018; Pequeno et al.,
2018), that software is no longer functional or useable for the
version 4.7.5 of DSSAT used in this study. However, with
the addition of automated calibration software programs that
work for CROPGRO-PFM, an improved calibration of the
parameters resulting from this study may be possible. Vari-
ous new tools for using time-series data for model calibration
and evaluation are currently under development (Alderman,
2020; Memic et al., 2021).
4 CONCLUSION
The original model CROPGRO-PFM showed a good perfor-
mance for simulating growth of Tanzânia but a relatively poor
but acceptable performance for simulating Mombaça growth.
After parameterization, the model had good performance for
predicting aboveground biomass accumulation and partition-
ing to leaf and stem during varying phenological phases. The
parameterized set of genetic parameters worked well to simu-
late both Tanzânia and Mombaça (no cultivar-specific param-
eters were required). For other cultivars, small adjustments to
the ecotype and cultivar parameters may be needed to achieve
good simulations. This model improvement for guineagrass
will be included in future versions of DSSAT and will facil-
itate further use for evaluating pasture utilization strategies
with harvesting at widely varying times during the regrowth
cycles.
C O N F L I C T O F I N T E R E S T
The authors have no conflict of interest to disclose.
AC K N OW L E D G M E N T S
H. B. Brunetti acknowledges financial support from CAPES
(Proex/ No. 88882.328650/2019-01) for his PhD grant. P.
M. Santos acknowledges financial support from CNPq (No.
205281/2016-0).
AU T H O R C O N T R I B U T I O N S
Henrique Brunetti: Conceptualization; Formal analysis;
Investigation; Methodology; Visualization; Writing-original
draft; Writing-review & editing. Ken Boote: Conceptual-
ization; Formal analysis; Methodology; Software; Supervi-
sion; Visualization; Writing-original draft; Writing-review &
editing. Patricia Menezes Santos: Conceptualization; Fund-
ing acquisition; Investigation; Methodology; Project admin-
istration; Resources; Supervision; Writing-review & edit-
ing. José Ricardo Macedo Pezzopane: Conceptualization;
Funding acquisition; Investigation; Methodology; Resources;
Writing-review & editing. Carlos G. S. Pedreira: Investiga-
tion; Resources; Writing-review & editing. Márcio André
Stefanelli Lara: Investigation; Resources; Writing-review &
editing. Leonardo S. B. Moreno: Investigation; Resources;
Writing-review & editing. Gerrit Hoogenboom: Methodol-
ogy; Software; Writing-review & editing
O RC I D
HenriqueB. Brunetti https://orcid.org/0000-0002-0586-
0304
KennethJ. Boote https://orcid.org/0000-0002-1358-5496
15. BRUNETTI ET AL. 3313
Patricia M.Santos https://orcid.org/0000-0001-8753-
0263
JoséR. M. Pezzopane https://orcid.org/0000-0001-5462-
6090
Carlos G. S.Pedreira https://orcid.org/0000-0001-5935-
854X
MárcioA. S. Lara https://orcid.org/0000-0002-9460-6585
LeonardoS. B. Moreno https://orcid.org/0000-0003-0110-
1228
GerritHoogenboom https://orcid.org/0000-0002-1555-
0537
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How to cite this article: Brunetti, H. B., Boote, K. J.,
Santos, P. M., Pezzopane, J. R. M., Pedreira, C. G. S.,
Lara, M. A. S., Moreno, L. S. B., & Hoogenboom, G.
Improving the CROPGRO Perennial Forage Model for
simulating growth and biomass partitioning of
guineagrass. Agronomy Journal.
2021;113:3299–3314.
https://doi.org/10.1002/agj2.20766