This document summarizes a study that investigated how mesophyll conductance (gm), the conductance of CO2 from the intracellular spaces to the chloroplasts, responds to drought and temperature in different genotypes of durum wheat. The study found that drought reduced gm in most genotypes and altered the temperature response by reducing thermal optima. Drought increased intrinsic water-use efficiency (WUEi) through reduced stomatal conductance, but the degree of response differed between genotypes. Under well-watered conditions, gm and WUEi responded similarly to increasing leaf temperature. However, the influence of gm on WUEi varied between genotypes and with water availability.
The crop wild relatives of potato have been largely and successfully used in breeding to acquire agronomical attributes that can help the cultivated potato to be more resistant against pest, diseases and extreme environmental conditions. Assessing the representativeness of these species in genebanks, is a fundamental step to secure these genetic resources for plant breeding and future availability of this crop.
Poster prepared for the International Potato Center (CIP) Board of Trustees meeting, December 2014
In light of the 'Soils and pulses: symbiosis for life – A contribution to the Agenda 2030' event that took place at the Food and Agriculture Organization of the UN (FAO), Bioversity International's researcher Paola De Santis highlighted the importance of pulse diversity in managing pests and diseases in farmers' fields. Planting diverse pulse varieties can reduce the farm’s vulnerability to pests and diseases, and is a risk management strategy for unpredictability in rainfall and temperatures.
Learn more about Bioversity International's research on managing pests and diseases: http://bit.ly/23ZWtBW
Genetic Variability, Heritability And Genetic Advance For Vegetable Yield And...Premier Publishers
The present study was carried out to estimate the genetic variability for vegetable yield and yield-related traits among Ethiopian kale accessions. The experiment was carried out using 7x7 simple lattice design at Debre zeit Agricultural Research Center during 2017 main cropping season. The analysis of variance revealed highly significant differences (p<0.01) among accessions for all traits except days to second leaf picking. High genotypic coefficient of variation and phenotypic coefficient of variation were estimated for the number of leaves per plant, fresh leaf weight, dry leaf matter content, fresh biomass and leaf yield. High broad sense heritability coupled with high Genetic advance as the percent of mean were obtained for the number of leaves per plant, fresh leaf weight, dry leaf matter content, leaf width, leaf petiole length, leaf petiole thickness, fresh biomass and leaf yield. It can be concluded that variation generated for these traits is mainly due to genetic and moderate role of environmental factors and these were the most important for selection criteria in developing high yielding Ethiopian kale accession. In general, the present study revealed the presence of variability among accession for most studied traits.
Criteria for the Selection of Vegetable Growth-Promoting Bacteria to be appli...Agriculture Journal IJOEAR
In order to define which are the most important criteria for the selection of plant Growth-Promoting bacterial strains of the Hibiscus sabdariffa L. crop (Roselle), bacterial strains isolated from the roots of Roselle plants of two varieties (Creole and Spider) were used, collected in the community of Río de los Peces, municipality of Candelaria Loxicha, Oaxaca and seeds of the same varieties. To characterize the varieties, the following were determined: total germination percentage (TGP), germination speed (GS), the root length(RL), the stem length (SL), the dry root biomass (DRB), the dry stem biomass (DSB) and the chlorophyll content (CC). Three types of LED lamps were used to illuminate the seedlings. The seeds inoculated with cells of six selected bacterial strains were grown in a greenhouse to determine: the stem length (SL) at 3, 45 and 65 days after sowing (das). The treatments were distributed under a completely random design and comparison of means (Tukey, p = 0.05). The TGP, DSB and DRB parameters were not useful in the selection process of the strains that promoted plant growth to a greater degree. The GS and SL to be considered safe criteria or not, what is important is the relationship of what happens at the time of germination and development of the seedlings in the laboratory and greenhouse. The SL of the plants in the greenhouse showed differences between strains, but not regarding the control and also only observed in the first days of development (3 das). The CC did not prove to be a good selection criterion either. The lamp composed of 15% white light, 27% blue light and 58% red light was the one that most promoted root growth.
The crop wild relatives of potato have been largely and successfully used in breeding to acquire agronomical attributes that can help the cultivated potato to be more resistant against pest, diseases and extreme environmental conditions. Assessing the representativeness of these species in genebanks, is a fundamental step to secure these genetic resources for plant breeding and future availability of this crop.
Poster prepared for the International Potato Center (CIP) Board of Trustees meeting, December 2014
In light of the 'Soils and pulses: symbiosis for life – A contribution to the Agenda 2030' event that took place at the Food and Agriculture Organization of the UN (FAO), Bioversity International's researcher Paola De Santis highlighted the importance of pulse diversity in managing pests and diseases in farmers' fields. Planting diverse pulse varieties can reduce the farm’s vulnerability to pests and diseases, and is a risk management strategy for unpredictability in rainfall and temperatures.
Learn more about Bioversity International's research on managing pests and diseases: http://bit.ly/23ZWtBW
Genetic Variability, Heritability And Genetic Advance For Vegetable Yield And...Premier Publishers
The present study was carried out to estimate the genetic variability for vegetable yield and yield-related traits among Ethiopian kale accessions. The experiment was carried out using 7x7 simple lattice design at Debre zeit Agricultural Research Center during 2017 main cropping season. The analysis of variance revealed highly significant differences (p<0.01) among accessions for all traits except days to second leaf picking. High genotypic coefficient of variation and phenotypic coefficient of variation were estimated for the number of leaves per plant, fresh leaf weight, dry leaf matter content, fresh biomass and leaf yield. High broad sense heritability coupled with high Genetic advance as the percent of mean were obtained for the number of leaves per plant, fresh leaf weight, dry leaf matter content, leaf width, leaf petiole length, leaf petiole thickness, fresh biomass and leaf yield. It can be concluded that variation generated for these traits is mainly due to genetic and moderate role of environmental factors and these were the most important for selection criteria in developing high yielding Ethiopian kale accession. In general, the present study revealed the presence of variability among accession for most studied traits.
Criteria for the Selection of Vegetable Growth-Promoting Bacteria to be appli...Agriculture Journal IJOEAR
In order to define which are the most important criteria for the selection of plant Growth-Promoting bacterial strains of the Hibiscus sabdariffa L. crop (Roselle), bacterial strains isolated from the roots of Roselle plants of two varieties (Creole and Spider) were used, collected in the community of Río de los Peces, municipality of Candelaria Loxicha, Oaxaca and seeds of the same varieties. To characterize the varieties, the following were determined: total germination percentage (TGP), germination speed (GS), the root length(RL), the stem length (SL), the dry root biomass (DRB), the dry stem biomass (DSB) and the chlorophyll content (CC). Three types of LED lamps were used to illuminate the seedlings. The seeds inoculated with cells of six selected bacterial strains were grown in a greenhouse to determine: the stem length (SL) at 3, 45 and 65 days after sowing (das). The treatments were distributed under a completely random design and comparison of means (Tukey, p = 0.05). The TGP, DSB and DRB parameters were not useful in the selection process of the strains that promoted plant growth to a greater degree. The GS and SL to be considered safe criteria or not, what is important is the relationship of what happens at the time of germination and development of the seedlings in the laboratory and greenhouse. The SL of the plants in the greenhouse showed differences between strains, but not regarding the control and also only observed in the first days of development (3 das). The CC did not prove to be a good selection criterion either. The lamp composed of 15% white light, 27% blue light and 58% red light was the one that most promoted root growth.
Evaluation of vernalization requirement in wheat inbred lines and cultivars u...Innspub Net
An understanding of vernalization requirement is a prerequisite for the development of cold tolerant cultivars for
high stress regions. Vernalization requirement in winter wheat (Triticum aestivum L.) has not been adequately
addressed. Therefore, the objective of the present study was to understand how the vernalization dates are
related to cold tolerance, phenological development and photosynthesis in four inbred lines (inbred line 1, 2, 3
and 4) and two wheat cultivars (Mironovskaya-808 and Pishtaz). These genotypes were subjected to vernalization temperature (5 C) on 30.11.2012, 17.12.2012, 09.01.2013, 13.02.2013 and 08.03.2013 as different vernalization dates. Control plants were grown under 25/20 C, day/night condition. Final leaf number was determined at intervals throughout the growth period to measure vernalization status. Number of days until heading was registered and lethal temperature (LT50) was determined. Photosynthesis rate was measured at the end of winter and flowering stages. According to the results the individual effect of genotype and vernalization date was significant on final leaf number, number of days until flowering and LT50. However, photosynthesis rate was just affected by vernalization date. In addition, interaction between vernalization date and genotype was significant on final leaf number, number of days until flowering and LT50. These results support the hypothesis that vernalization responses regulate phenological growth and affect cold tolerance through their influence on the rate of plant development.
Study on Genetic Variability, Heritability, Genetic Advance and Correlation a...IJEABJ
The present investigation entitled “Studies on genetic variability in tomato (Solanum lycopersicum L.)” was carried out at the UCOA, vegetable research farm, Guru Kashi University, Talwandi Sabo, Bathinda during rabi 2015-16 to evaluate tomato genotypes. The experiment was laid out in CRD with three replications. Total 20 genotypes including check cultivar were evaluated for horticultural Traits contributing yield and quality (suitable for processing) .There is a wide variability in different genotypes in tomato. Traits i.e. Number of primary branches per plant, Days to first fruit harvest, Plant height (cm),number of fruits per cluster, number fruits per plant, average fruit weight (gm), equatorial diameter of fruit (cm), polar diameter of fruit (cm), number of locules per fruit, pericarp thickness (mm), fruit pH, Fruit TSS (0brix), days to last fruit harvest and average yield per plant (kg) were studied during the investigation Analysis of variance showed significant differences among genotypes for all the characters under study during the investigation. High Phenotypic and Genotypic coefficient of variation were detected for characters like number of fruits per plant, number of locules per fruit, pericarp thickness and average yield per plant. High heritability coupled with genetic gain were recorded for number of fruits per plant, average fruit weight, number of locules per fruit and average yield per plant. Therefore these characters also show some scope for improvement through selection. A highly significant and positive phenotypic and genotypic correlation were found in number of fruits per cluster, plant height, number of fruits per plant and average fruit weight.
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.
Presentation given at the session on 'Seeds of Resilience - Novel strategies for using crop diversity in climate change adaptation' at Tropentag 2016, September 21st, Vienna, by Bioversity International scientist Ronnie Vernooy.
Future impacts of climate change are expected to become more pronounced in many parts of the world, forcing farmers to change their practices and causing them to find crops and varieties better adapted to new weather dynamics. Providing farmers with better access to crop and varietal diversity can strengthen their capacity to adapt to climate change. Under supportive policy and socioeconomic conditions, such strengthened capacity could contribute to greater food availability throughout the year, the production of more nutritious and healthy crops, and income generation. This is easier said than done.
How do we design and implement a comprehensive strategy that will allow farmers to access and use plant genetic diversity more effectively in the context of climate change adaptation? This session responded to this question through an interactive introduction to the challenge of enabling farmers to use climate-adapted germplasm (led by Bioversity International), a practical example from the field to bring new diversity to farmers fields (a case study from Uganda), and a “this is how we support crop diversification for climate change adaptation” exchange among a number of experts from government (development cooperation), private sector and civil society.
Find out more:
http://www.bioversityinternational.org/tropentag2016/
http://www.bioversityinternational.org/e-library/publications/detail/resource-box-for-resilient-seed-systems-handbook/
Poster presented during the CSA global conference in Montpelier, France in March 2015. Study was conducted in the densely populated Lushoto district, Northern Tanzania to identify better potato varieties that will enable farmers to plant potatoes year round while increasing yields. For more information, please contact D.Harahagazwe@cgiar.org
Read more: http://ccafs.cgiar.org/3rd-global-science-conference-%E2%80%9Cclimate-smart-agriculture-2015%E2%80%9D#.VRurLUesXX4
Poster describing a global occurrence database of over 5 million records of the distributions of crops and their wild relatives, including taxonomic and geographic information.
The Conservation and Use of Crop Genetic Resources for Food SecurityColin Khoury
Presentation of PhD thesis, Wageningen University, Wageningen, The Netherlands, for the Hugo de Vries award by the Royal Botanical Society of the Netherlands (KNBV) for the best botany related thesis in the Netherlands in 2015, 11 April 2016, Lunteren, The Netherlands.
Effects of 60Co gamma radiation doses on seed germination of Jatropha curcas ...Innspub Net
By: Baudouin K. Nyembo, Alexandre N. Mbaya, Calvin C. Ilunga, Jean-Louis N. Muambi, Luc L. Tshilenge
Key Words: Jatropha curcas, Gamma irradiation, Seed germination, LD50.
Int. J. Agron. Agri. Res. 13(5), 46-52, November 2018.
This study aimed to assess the effects of different gamma radiation doses from Cobalt -60 isotopic source on seed germination and early growth parameters of Jatropha curcas L. Healthy and dry seeds were subjected to three doses of gamma rays (100, 200 and 300 Gy). The experiment was conducted using randomized complete block design, with three replicates. The significantly maximum germination percentage (89.85 %), seedling survival (92.3 %), seedling collar diameter (0.892 cm), plant height (17.30 cm), number of leaves (7) were observed at 30 days after germination. The results revealed that seed germination percentages and seedling shoot length decreased with increasing dose of gamma-rays. Higher gamma-ray dose (300 Gy) in particular had a pronounced effect on these germination parameters than others, probably because high-dose inhibited cell division due to free radicals and DNA system damage. The LD50 for seeds germination rates was obtained at 254 Gy. These results implied that germination traits of Jatropha curcas seeds were sensitive to increase in gamma-ray.
Evaluation of vernalization requirement in wheat inbred lines and cultivars u...Innspub Net
An understanding of vernalization requirement is a prerequisite for the development of cold tolerant cultivars for
high stress regions. Vernalization requirement in winter wheat (Triticum aestivum L.) has not been adequately
addressed. Therefore, the objective of the present study was to understand how the vernalization dates are
related to cold tolerance, phenological development and photosynthesis in four inbred lines (inbred line 1, 2, 3
and 4) and two wheat cultivars (Mironovskaya-808 and Pishtaz). These genotypes were subjected to vernalization temperature (5 C) on 30.11.2012, 17.12.2012, 09.01.2013, 13.02.2013 and 08.03.2013 as different vernalization dates. Control plants were grown under 25/20 C, day/night condition. Final leaf number was determined at intervals throughout the growth period to measure vernalization status. Number of days until heading was registered and lethal temperature (LT50) was determined. Photosynthesis rate was measured at the end of winter and flowering stages. According to the results the individual effect of genotype and vernalization date was significant on final leaf number, number of days until flowering and LT50. However, photosynthesis rate was just affected by vernalization date. In addition, interaction between vernalization date and genotype was significant on final leaf number, number of days until flowering and LT50. These results support the hypothesis that vernalization responses regulate phenological growth and affect cold tolerance through their influence on the rate of plant development.
Genetic studies of genotypic responses to water stress in upland cotton (Goss...INNS PUBNET
The present study was carried out to examine the potential in cotton germplasm for breeding water stress tolerant plant material, and understand the genetic basis of different morphological traits related to water stress tolerance. Portioned analysis of variance was employed to obtain good parents for this purposes. The parental genotypes MNH-512, Arizona-6218, CIM-482, MS-39, and NIAB-78 were crossed in complete diallel fashion and F0 seeds of 20 hybrids and five parents were planted in the field in randomized complete block design with three replications during 2010. Simple regression analysis of F1 data revealed that additive-dominance model was quite adequate for all morphological traits. The unit slope of regression lines number of bolls (b = 1.07 ± 9.14), boll weight (b = 0.99 ± 0.11), yield per plant (b = 0.96 ± 0.31), plant height (b = 1.10 ± 0.34), leaf area index (b = 0.82 ± 0.27), and ginning percentage (b = 1.01 ± 0.12) suggested that the epistatic component was absent in the inheritance of all characters studied. The result of various plant characters including seed yield showed drastic effects of water stress as compared with those assessed in non-stressed condition. Leaf area index in the analysis of variance suggested that additive variation was more important for the character. Narrow leaf varieties NIAB-78 and CIM-482 were water stress tolerant while varieties Arizona-6218, MNH-512 and MS-39 were broader leaf showing less resistant to water stress. The information derived from these studies may be used to develop drought tolerant cotton material that could give economic yield in water stressed conditions of cotton belt. Full articles at: http://innspubnet.blogspot.com/2016/08/diversity-and-distribution-of-anuran-in.html
Evaluation of vernalization requirement in wheat inbred lines and cultivars u...Innspub Net
An understanding of vernalization requirement is a prerequisite for the development of cold tolerant cultivars for
high stress regions. Vernalization requirement in winter wheat (Triticum aestivum L.) has not been adequately
addressed. Therefore, the objective of the present study was to understand how the vernalization dates are
related to cold tolerance, phenological development and photosynthesis in four inbred lines (inbred line 1, 2, 3
and 4) and two wheat cultivars (Mironovskaya-808 and Pishtaz). These genotypes were subjected to vernalization temperature (5 C) on 30.11.2012, 17.12.2012, 09.01.2013, 13.02.2013 and 08.03.2013 as different vernalization dates. Control plants were grown under 25/20 C, day/night condition. Final leaf number was determined at intervals throughout the growth period to measure vernalization status. Number of days until heading was registered and lethal temperature (LT50) was determined. Photosynthesis rate was measured at the end of winter and flowering stages. According to the results the individual effect of genotype and vernalization date was significant on final leaf number, number of days until flowering and LT50. However, photosynthesis rate was just affected by vernalization date. In addition, interaction between vernalization date and genotype was significant on final leaf number, number of days until flowering and LT50. These results support the hypothesis that vernalization responses regulate phenological growth and affect cold tolerance through their influence on the rate of plant development.
Study on Genetic Variability, Heritability, Genetic Advance and Correlation a...IJEABJ
The present investigation entitled “Studies on genetic variability in tomato (Solanum lycopersicum L.)” was carried out at the UCOA, vegetable research farm, Guru Kashi University, Talwandi Sabo, Bathinda during rabi 2015-16 to evaluate tomato genotypes. The experiment was laid out in CRD with three replications. Total 20 genotypes including check cultivar were evaluated for horticultural Traits contributing yield and quality (suitable for processing) .There is a wide variability in different genotypes in tomato. Traits i.e. Number of primary branches per plant, Days to first fruit harvest, Plant height (cm),number of fruits per cluster, number fruits per plant, average fruit weight (gm), equatorial diameter of fruit (cm), polar diameter of fruit (cm), number of locules per fruit, pericarp thickness (mm), fruit pH, Fruit TSS (0brix), days to last fruit harvest and average yield per plant (kg) were studied during the investigation Analysis of variance showed significant differences among genotypes for all the characters under study during the investigation. High Phenotypic and Genotypic coefficient of variation were detected for characters like number of fruits per plant, number of locules per fruit, pericarp thickness and average yield per plant. High heritability coupled with genetic gain were recorded for number of fruits per plant, average fruit weight, number of locules per fruit and average yield per plant. Therefore these characters also show some scope for improvement through selection. A highly significant and positive phenotypic and genotypic correlation were found in number of fruits per cluster, plant height, number of fruits per plant and average fruit weight.
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.
Presentation given at the session on 'Seeds of Resilience - Novel strategies for using crop diversity in climate change adaptation' at Tropentag 2016, September 21st, Vienna, by Bioversity International scientist Ronnie Vernooy.
Future impacts of climate change are expected to become more pronounced in many parts of the world, forcing farmers to change their practices and causing them to find crops and varieties better adapted to new weather dynamics. Providing farmers with better access to crop and varietal diversity can strengthen their capacity to adapt to climate change. Under supportive policy and socioeconomic conditions, such strengthened capacity could contribute to greater food availability throughout the year, the production of more nutritious and healthy crops, and income generation. This is easier said than done.
How do we design and implement a comprehensive strategy that will allow farmers to access and use plant genetic diversity more effectively in the context of climate change adaptation? This session responded to this question through an interactive introduction to the challenge of enabling farmers to use climate-adapted germplasm (led by Bioversity International), a practical example from the field to bring new diversity to farmers fields (a case study from Uganda), and a “this is how we support crop diversification for climate change adaptation” exchange among a number of experts from government (development cooperation), private sector and civil society.
Find out more:
http://www.bioversityinternational.org/tropentag2016/
http://www.bioversityinternational.org/e-library/publications/detail/resource-box-for-resilient-seed-systems-handbook/
Poster presented during the CSA global conference in Montpelier, France in March 2015. Study was conducted in the densely populated Lushoto district, Northern Tanzania to identify better potato varieties that will enable farmers to plant potatoes year round while increasing yields. For more information, please contact D.Harahagazwe@cgiar.org
Read more: http://ccafs.cgiar.org/3rd-global-science-conference-%E2%80%9Cclimate-smart-agriculture-2015%E2%80%9D#.VRurLUesXX4
Poster describing a global occurrence database of over 5 million records of the distributions of crops and their wild relatives, including taxonomic and geographic information.
The Conservation and Use of Crop Genetic Resources for Food SecurityColin Khoury
Presentation of PhD thesis, Wageningen University, Wageningen, The Netherlands, for the Hugo de Vries award by the Royal Botanical Society of the Netherlands (KNBV) for the best botany related thesis in the Netherlands in 2015, 11 April 2016, Lunteren, The Netherlands.
Effects of 60Co gamma radiation doses on seed germination of Jatropha curcas ...Innspub Net
By: Baudouin K. Nyembo, Alexandre N. Mbaya, Calvin C. Ilunga, Jean-Louis N. Muambi, Luc L. Tshilenge
Key Words: Jatropha curcas, Gamma irradiation, Seed germination, LD50.
Int. J. Agron. Agri. Res. 13(5), 46-52, November 2018.
This study aimed to assess the effects of different gamma radiation doses from Cobalt -60 isotopic source on seed germination and early growth parameters of Jatropha curcas L. Healthy and dry seeds were subjected to three doses of gamma rays (100, 200 and 300 Gy). The experiment was conducted using randomized complete block design, with three replicates. The significantly maximum germination percentage (89.85 %), seedling survival (92.3 %), seedling collar diameter (0.892 cm), plant height (17.30 cm), number of leaves (7) were observed at 30 days after germination. The results revealed that seed germination percentages and seedling shoot length decreased with increasing dose of gamma-rays. Higher gamma-ray dose (300 Gy) in particular had a pronounced effect on these germination parameters than others, probably because high-dose inhibited cell division due to free radicals and DNA system damage. The LD50 for seeds germination rates was obtained at 254 Gy. These results implied that germination traits of Jatropha curcas seeds were sensitive to increase in gamma-ray.
Evaluation of vernalization requirement in wheat inbred lines and cultivars u...Innspub Net
An understanding of vernalization requirement is a prerequisite for the development of cold tolerant cultivars for
high stress regions. Vernalization requirement in winter wheat (Triticum aestivum L.) has not been adequately
addressed. Therefore, the objective of the present study was to understand how the vernalization dates are
related to cold tolerance, phenological development and photosynthesis in four inbred lines (inbred line 1, 2, 3
and 4) and two wheat cultivars (Mironovskaya-808 and Pishtaz). These genotypes were subjected to vernalization temperature (5 C) on 30.11.2012, 17.12.2012, 09.01.2013, 13.02.2013 and 08.03.2013 as different vernalization dates. Control plants were grown under 25/20 C, day/night condition. Final leaf number was determined at intervals throughout the growth period to measure vernalization status. Number of days until heading was registered and lethal temperature (LT50) was determined. Photosynthesis rate was measured at the end of winter and flowering stages. According to the results the individual effect of genotype and vernalization date was significant on final leaf number, number of days until flowering and LT50. However, photosynthesis rate was just affected by vernalization date. In addition, interaction between vernalization date and genotype was significant on final leaf number, number of days until flowering and LT50. These results support the hypothesis that vernalization responses regulate phenological growth and affect cold tolerance through their influence on the rate of plant development.
Genetic studies of genotypic responses to water stress in upland cotton (Goss...INNS PUBNET
The present study was carried out to examine the potential in cotton germplasm for breeding water stress tolerant plant material, and understand the genetic basis of different morphological traits related to water stress tolerance. Portioned analysis of variance was employed to obtain good parents for this purposes. The parental genotypes MNH-512, Arizona-6218, CIM-482, MS-39, and NIAB-78 were crossed in complete diallel fashion and F0 seeds of 20 hybrids and five parents were planted in the field in randomized complete block design with three replications during 2010. Simple regression analysis of F1 data revealed that additive-dominance model was quite adequate for all morphological traits. The unit slope of regression lines number of bolls (b = 1.07 ± 9.14), boll weight (b = 0.99 ± 0.11), yield per plant (b = 0.96 ± 0.31), plant height (b = 1.10 ± 0.34), leaf area index (b = 0.82 ± 0.27), and ginning percentage (b = 1.01 ± 0.12) suggested that the epistatic component was absent in the inheritance of all characters studied. The result of various plant characters including seed yield showed drastic effects of water stress as compared with those assessed in non-stressed condition. Leaf area index in the analysis of variance suggested that additive variation was more important for the character. Narrow leaf varieties NIAB-78 and CIM-482 were water stress tolerant while varieties Arizona-6218, MNH-512 and MS-39 were broader leaf showing less resistant to water stress. The information derived from these studies may be used to develop drought tolerant cotton material that could give economic yield in water stressed conditions of cotton belt. Full articles at: http://innspubnet.blogspot.com/2016/08/diversity-and-distribution-of-anuran-in.html
Diallel mating in selected mustard genotypesfahimkhan163
It will help the researchers how to conduct diallel mating among mustard crops. This study also aims to screen out salinity tolerance and short duration mustard genotypes which will lead to develop a desired variety in future
Cold Plasma Technique in Controlling Contamination and Improving the Physiolo...J. Agricultural Machinery
Today, almost half of the total human food, especially in Asia, is directly supplied from grains, and nearly 70% of the cultivated area of the world, which is one billion hectares, is used for growing grains. Therefore, non-destructive methods must be found and developed to increase seed quality in agriculture and industry. Cold plasma is a novel and efficient method that can be used in the agricultural and food sectors for the inactivation of surface microorganisms and the excitation of seeds. This review presents a summary of the effectiveness of cold plasma treatment on the characteristics of four important cereal plants: wheat, rice, corn, and barley. The focus is on the effects of this treatment on seed germination, surface property changes, water uptake of seeds, growth parameters of root, shoot, and seedling length, biomass parameters, and metabolic activities. By examining the research conducted by the researchers, it can be seen that the cereal seeds treated with cold plasma had better germination power, water absorption, shoot length, growth efficiency, shoot and root weight, and metabolic activity. This review can provide insight into the promising trends in utilizing plasma as a method to decrease the prevalence of harmful plant diseases transmitted through seeds and reduce the dormancy of hard seeds.
Stressful environments such as salinity and drought was assessed on photosynthesis, the most fundamental and intricate physiological process of three oil plants canola (BrassicanapusL.), safflower (Carthamustinctorius L.) and sunflower (Helianthus annusL) grown in different sites in Egypt (Suez road; North Coastal area; El-Kantra East) , is also severely affected in all its phases by such stresses .
Inheritance of soybean resistance to soybean rust in Uganda’s soybean germplasmInnspub Net
Understanding the genetic mechanisms of soybean rust resistance is important for effective selection and breeding procedures. This study was hence conducted to determine the combining ability and gene action controlling soybean rust using a 10×10 half diallel mating design. The F2 segregating populations along with their parents were evaluated for rust severity and sporulation level at two reproductive stages (R4 and R6) in screen house and field conditions during the second season of 2016 and first season of 2017 at MUARIK using an alpha lattice design replicated thrice. Significant differences were observed among the parents and F2 generations for both disease severity and sporulation level. General and specific combining abilities were highly significant. The GCA/SCA ratio (1.50-2.30) and the Baker’s ratio (0.75-0.82) showed the predominance of additive gene action in the inheritance of soybean rust resistance. The broad-sense (0.94-0.99) and narrow-sense (0.73-0.82) heritability estimates indicated the possibility of improving resistance to soybean rust through selection in the early generations. UG 5, Maksoy 3N, Maksoy 4N and Maksoy 5N had negative GCA effects. The F2 populations derived from these parents crossed with Wonder soya and Nam 2 had also negative SCA effects. The use of these parents and F2 populations can, therefore, increase the response to selection for improving resistance to soybean rust.
Presentation by Jan Low from CIP at the Land and Water Advantage event on the sidelines of COP23.
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