This is third bulletin of the quarterly publication of Tropical Legumes III (TL III) project, funded by the Bill & Melinda Gates Foundation, and jointly implemented by the International Crops Research Institute for the Semi-Arid Tropics (ICRISAT), the International Center for Tropical Agriculture (CIAT) and the International Institute of Tropical Agriculture (IITA) in close collaboration with partners in the national agricultural research systems (NARS) of target countries in sub-Saharan Africa and South Asia. TL III aims to improve the livelihoods of smallholder farmers in drought-prone areas of the two regions through enhanced productivity and production of grain legumes.
India Maize Summit 2015 - Session 1: P K Joshi, International Food Policy Re...NCDEX Ltd.
Global status of maize production
Status of global maize trade
Dynamics of maize production in India
Favorable environment for maize
Challenges to the maize sector
Solutions to address the challenges
Trends in Area Production and Productivity of Groundnut in Uttar Pradesh: Fut...inventionjournals
India has been ranking among top three producers of Groundnut in the world, Gujarat, Tamil Nadu and Madhya Pradesh being the major producing states in the country. However, there has been a consistent fluctuation in the area and production over the years and across the State. Uttar Pradesh being one of the most populous state in the country has been ranking amongst the top two states as far as mustard production is concerned. However it ranks 8 as far as the production and productivity groundnut is concerned. Groundnut oil being a major cooking medium and groundnut seeds an important ingradient in the processing sector, the paper aims to analyse trends in area, Production and Productivity of Groundnut in Uttar Pradesh with future business implications. Orthogonal polynomial technique has been deployed to examine the trends.
India Maize Summit 2015 - Session 1: P K Joshi, International Food Policy Re...NCDEX Ltd.
Global status of maize production
Status of global maize trade
Dynamics of maize production in India
Favorable environment for maize
Challenges to the maize sector
Solutions to address the challenges
Trends in Area Production and Productivity of Groundnut in Uttar Pradesh: Fut...inventionjournals
India has been ranking among top three producers of Groundnut in the world, Gujarat, Tamil Nadu and Madhya Pradesh being the major producing states in the country. However, there has been a consistent fluctuation in the area and production over the years and across the State. Uttar Pradesh being one of the most populous state in the country has been ranking amongst the top two states as far as mustard production is concerned. However it ranks 8 as far as the production and productivity groundnut is concerned. Groundnut oil being a major cooking medium and groundnut seeds an important ingradient in the processing sector, the paper aims to analyse trends in area, Production and Productivity of Groundnut in Uttar Pradesh with future business implications. Orthogonal polynomial technique has been deployed to examine the trends.
M.Sc. (Ag.) in Agricultural Marketing & Cooperation
This includes the inception, present status and future aspects of the Mission as a comprehensive manner.
Trends In Area Production And Productivity of Groundnut In India: Issues & Ch...QUESTJOURNAL
ABSTRACT: India has been ranking among top three producers of Groundnut in the world, Gujarat, Madhya Pradesh, Tamilnadu being the major producing states in the country. However, there has been a consistent fluctuation in the area and production over the years and across the states. The paper aims to examine the trends in area under cultivation, production and productivity of Groundnut in India by deploying orthogonal polynomial technique on the time series data of fifty years. It also analyses the area and productivity effect as preliminary determinants of production. The major issues and challenges relating to production and productivity of Groundnut have also been dealt with. Concluding remarks suggest some recommendations for augmenting the overall production and its consistency.
Various changes in the Indian spending patterns as well as consumption boom in the nation have given maize products increased applicability and hence the demand for maize products is ascending. Maize processing in India is fragmented and quite unorganized which limits us to capture the exact size of the industry. Industry in the past has grown at a healthy rate .
Maize Processing Industry in India, maize processing plant project report, maize Processing Projects, maize processing unit project report, maize processing value added products, Maize Processing Wet Milling, maize product manufacturing plant project report, maize production and processing, maize production in India, Maize Production Technologies in India, maize products and uses, maize products machinery, maize products manufacturers, maize products, manufacturing plant, maize products pdf, Maize Starch & Derivatives, maize starch industry in India, maize starch manufacturing machine, maize starch manufacturing plant, maize starch manufacturing process, Maize Starch Modified Starch, maize starch plant machinery, maize starch project profile, Maize Starches and starch derivatives, Modified corn starch, Most Profitable Food Processing Business Ideas, Most Profitable maize Processing Business Ideas, Multifarious uses of Starch and its Derivatives, new small scale ideas in maize processing industry, opportunities for the Indian Maize starch industry, Pre-Investment Feasibility Study on maize processing plant, products from maize processing, Project Profile on The Establishment of maize corn Producing Plant, Project profiles on maize processing plant, project report maize starch plant, Project Report on maize and it’s by products, Project report on maize processing industries, Small Scale Food Processing Projects, Small Scale maize Processing Projects, Sorbitol from Maize Starch, Starch Corn Derivatives, starch from maize project report, Starch production from Maize, Starting a Food Processing Business, Starting a maize Processing Business, Techno-Economic feasibility study on maize processing unit, Value-added maize products from Agro Corn, yellow maize animal feed, Corn Germ Oil Extraction, Corn gluten meal production, Corn or Maize Oil production, dextrose from maize, High-Fructose Corn Syrup (HFCS), Liquid Glucose from maize, Processing maize flour
Agriculture Sector in India, Indian Agriculture IndustryBruce Clay India
Indian agriculture is on a long-term growth path. The country is the second-largest producer of food in the world and holds the potential of being the biggest on global food and agriculture canvas, according to a Corporate Catalyst India (CCI) survey.
Agro based industries scenario and their future in IndiaAbdulmughni Ansari
Agro based industries scenario and their future in India (Business environment)
This presentation is done as part of subject business environment for MBA program.
Innovative Chickpea Seed and Technology Delivery Systems in Eastern and South...Tropical Legumes III
Small scale chickpea farmers require complementary functional seed and product markets if sustainable seed production is to be achieved.
Selection of chickpea variety by farmers is largely influenced by consumer demand and market superiority.
Participatory variety selection enhances cost effective testing and increases chances of varietal adoption.
Market pull is key driver for success in Ethiopia which resulted in stakeholder participation and government’s policy support.
Involvement of policy makers is crucial for quick dissemination of proven technologies (eg, Ethiopia).
M.Sc. (Ag.) in Agricultural Marketing & Cooperation
This includes the inception, present status and future aspects of the Mission as a comprehensive manner.
Trends In Area Production And Productivity of Groundnut In India: Issues & Ch...QUESTJOURNAL
ABSTRACT: India has been ranking among top three producers of Groundnut in the world, Gujarat, Madhya Pradesh, Tamilnadu being the major producing states in the country. However, there has been a consistent fluctuation in the area and production over the years and across the states. The paper aims to examine the trends in area under cultivation, production and productivity of Groundnut in India by deploying orthogonal polynomial technique on the time series data of fifty years. It also analyses the area and productivity effect as preliminary determinants of production. The major issues and challenges relating to production and productivity of Groundnut have also been dealt with. Concluding remarks suggest some recommendations for augmenting the overall production and its consistency.
Various changes in the Indian spending patterns as well as consumption boom in the nation have given maize products increased applicability and hence the demand for maize products is ascending. Maize processing in India is fragmented and quite unorganized which limits us to capture the exact size of the industry. Industry in the past has grown at a healthy rate .
Maize Processing Industry in India, maize processing plant project report, maize Processing Projects, maize processing unit project report, maize processing value added products, Maize Processing Wet Milling, maize product manufacturing plant project report, maize production and processing, maize production in India, Maize Production Technologies in India, maize products and uses, maize products machinery, maize products manufacturers, maize products, manufacturing plant, maize products pdf, Maize Starch & Derivatives, maize starch industry in India, maize starch manufacturing machine, maize starch manufacturing plant, maize starch manufacturing process, Maize Starch Modified Starch, maize starch plant machinery, maize starch project profile, Maize Starches and starch derivatives, Modified corn starch, Most Profitable Food Processing Business Ideas, Most Profitable maize Processing Business Ideas, Multifarious uses of Starch and its Derivatives, new small scale ideas in maize processing industry, opportunities for the Indian Maize starch industry, Pre-Investment Feasibility Study on maize processing plant, products from maize processing, Project Profile on The Establishment of maize corn Producing Plant, Project profiles on maize processing plant, project report maize starch plant, Project Report on maize and it’s by products, Project report on maize processing industries, Small Scale Food Processing Projects, Small Scale maize Processing Projects, Sorbitol from Maize Starch, Starch Corn Derivatives, starch from maize project report, Starch production from Maize, Starting a Food Processing Business, Starting a maize Processing Business, Techno-Economic feasibility study on maize processing unit, Value-added maize products from Agro Corn, yellow maize animal feed, Corn Germ Oil Extraction, Corn gluten meal production, Corn or Maize Oil production, dextrose from maize, High-Fructose Corn Syrup (HFCS), Liquid Glucose from maize, Processing maize flour
Agriculture Sector in India, Indian Agriculture IndustryBruce Clay India
Indian agriculture is on a long-term growth path. The country is the second-largest producer of food in the world and holds the potential of being the biggest on global food and agriculture canvas, according to a Corporate Catalyst India (CCI) survey.
Agro based industries scenario and their future in IndiaAbdulmughni Ansari
Agro based industries scenario and their future in India (Business environment)
This presentation is done as part of subject business environment for MBA program.
Innovative Chickpea Seed and Technology Delivery Systems in Eastern and South...Tropical Legumes III
Small scale chickpea farmers require complementary functional seed and product markets if sustainable seed production is to be achieved.
Selection of chickpea variety by farmers is largely influenced by consumer demand and market superiority.
Participatory variety selection enhances cost effective testing and increases chances of varietal adoption.
Market pull is key driver for success in Ethiopia which resulted in stakeholder participation and government’s policy support.
Involvement of policy makers is crucial for quick dissemination of proven technologies (eg, Ethiopia).
Fourth bulletin of the quarterly publication of Tropical Legumes III (TL III)...Tropical Legumes III
This is fourth bulletin of the quarterly publication of Tropical Legumes III (TL III) project, funded by the Bill & Melinda Gates Foundation, and jointly implemented by the International Crops Research Institute for the Semi-Arid Tropics (ICRISAT), the International Center for Tropical Agriculture (CIAT) and the International Institute of Tropical Agriculture (IITA) in close collaboration with partners in the national agricultural research systems (NARS) of target countries in sub-Saharan Africa and South Asia. TL III aims to improve the livelihoods of smallholder farmers in drought-prone areas of the two regions through enhanced productivity and production of grain legumes.
An overview of chickpea improvement program of ethiopia #TropicallegumesTropical Legumes III
The chickpea improvement program released 24 improved varieties (17 national and 7 regional)
The released/pipeline varieties have traits such as:
• large seed (64 g/100 seed weight)
• Disease resistance (Ascochyta blight/Fusarium wilt)
• Drought tolerance (MABC)
• Early maturing
• High yielding
• Machine harvestable
• Heat tolerant
The average yield gain due to these varieties is 2-3 fold over landrace varieties
Projects such as TL II have aggressively supported variety development, release and dissemination through integrated seed systems
Integration of the formal and informal seed production and distribution system has enhanced availability
With the uptake of these varieties and associated production packages, the national productivity has been on steady increase.
Working towards release of drought tolerant and disease resistant groundnut v...Tropical Legumes III
Under the umbrella of @tropicallegumes III and USAID Groundnut upscaling project, a team of scientists from ICRISAT and partner organizations have been working towards the release of drought tolerant and disease resistance groundnut varieties in Nigeria.
First bulletin of the quarterly publication of Tropical Legumes III (TL III) ...Tropical Legumes III
The Bulletin of Tropical Legumes is a quarterly publication of the Tropical Legumes III (TL III) project, funded by the Bill & Melinda Gates Foundation, and jointly implemented by the
International Crops Research Institute for the Semi-Arid Tropics (ICRISAT), the International Center for Tropical Agriculture (CIAT) and the International Institute of Tropical
Agriculture (IITA) in close collaboration with partners in the national agricultural research systems (NARS) of target countries in sub-Saharan Africa and South Asia. TL III aims
to improve the livelihoods of smallholder farmers in drought-prone areas of the two regions through enhanced productivity and production of grain legumes.
India holds the second largest agricultural land (179.9 million hectares) in the world. India is the largest producer of pulses, milk, tea, cashew and jute; and the second largest producer of wheat, rice, fruits and vegetables, sugarcane, cotton and oilseeds. Total food grains production in India reached an all-time high of 259.32 million tonnes (MT) in FY12. Rice and wheat production in the country stood at 105.3 MT and 94.9 MT respectively.
Gross Domestic Product (GDP) of agriculture and allied sectors in India reached US$ 151.8 billion in FY12. India is among the 10 leading exporters of agricultural products in the world; the country accounted for 2.07 per cent of global agricultural trade in 2012. Total agricultural exports from India registered 24.1 per cent compound annual growth rate (CAGR) to reach US$ 39 billion during FY07-12.
Domestic demand for agricultural and allied products has not only been rising due to rising population, but also as a result of greater consumption by a wealthier population. Indian agriculture has also benefitted from rising external demand and the sector’s wider participation in the global economy.
The Government of India has launched National Food Security Mission (NFSM) to increase production of rice, wheat and pulses. It has also implemented schemes like Rashtriya Krishi Vikas Yojana (RKVY) which incentivises states to increase private investment in agriculture and allied sectors
Cereals are synonyms of Indian food production, obviously due to its lion share (~ 90 %) in total
Indian food basket. Since time immemorial, fate of Indian agriculture heavily depends upon the
success of cereals production. Agriculture glory of India must be strengthened all the way through
achieving self sufficiency in food production first; secondly by improving our agriculture image at
global arena, by get redden off from net importer to net exporter, obviously through strong
presence in global agriculture market. We are marching in the right direction; cereals are the leaders
in the food commodity export especially rice “The Basmati Rice”. Since, as of now, Indian share in
the world trade is meagre (~1.0%), there are needs to scale up to the tune of 6% in very quick
succession. No doubt, Cereals and coarse cereals should be a front leader in this endeavourer. Since
a lot more has to be done; we have to have adhered on do more policy. This article discuss at length
on past glory, present status and future prospect of the great Indian food basket famously known as
“The Cereals”.
Critically Analyze the Transitional Dynamics in the Agriculture sector. What is Green Revolution? How Agriculture sector can be made an engine of economic growth with special reference to Pakistan?
The agriculture sector employs nearly half of the workforce in the country. However, it contributes to 17.5% of the GDP (at current prices in 2015-16).Agriculture sector’s contribution has decreased from more than 50% of GDP in the 1950s to 15.4% in 2015-16 (at constant prices). This slides discuss about Indian agriculture status and problems and solutions.
This report mainly focus on agriculture sector of India. this report aware every citizen of nation that production of crops in india increases but farmer did not get minimum support price of crops because huge production of garlic,soyabeen ,pulses ,vegetable sugarcane in this financial year 2017-18 but farmer did not get satisfy minimum support price to govt. tenure where farmer apply online sell crops registration to govt. but 10 days website is show close but time given by govt. 15 days at msp 3200 per quinatal all farmer did not get msp pricre due to lack 0f knowledge and curruption in checking qualtiy of garlic crops at mandi .
Present Status of Eri-Muga Culture in Ne Region and Related Biodiversity Resources as Tool for Sustainable Economic Uplifting of Seri-Stakeholders
http://dx.doi.org/10.21276/SSR-IIJLS.2019.5.3.3
Production and Productivity Increase of Milch Animals through the Supply of G...Agriculture Journal IJOEAR
Abstract— In India, fodder production is less than the demand and hence deficit is noticed in different states with varying per cent of deficit observed in many states. To alleviate the deficiency of green and dry fodder and to maximize the fodder production for increased a productivity of livestock was studied among 310 respondents of 23 non-delta districts of Tamil Nadu. The results showed that, gain among different types of faming, increased quantum of feeding and increased body weight gain and daily average milk yield among the indigenous as well as cross breed animals.
Agriculture in India has a significant history. Today, India ranks second worldwide in farm output. The economic contribution of agriculture to India's GDP is steadily declining with the country's broad-based economic growth. Still, agriculture is demographically the broadest economic sector and plays a significant role in the overall socio-economic fabric of India.
Eleventh bulletin of the quarterly publication of Tropical Legumes III (TL II...Tropical Legumes III
This edition highlights the progress made under Chickpea in Ethiopia. Chickpea in Ethiopia is gaining commercial success with an aggressive promotion and marketing of high yielding Kabuli varieties like Shasho, Arerti and Habru through the Tropical Legumes (TL) project.
Tenth bulletin of the quarterly publication of Tropical Legumes III (TL III) ...Tropical Legumes III
This edition highlights the progress made under Objective 3 of the project: To enhance cowpea productivity and production in drought-prone areas of sub-Saharan Africa and Objective
6: Sustainable and impact-oriented legume seed delivery systems for smallholders – Cowpea seed system
during 2 years of the project.
ICRISAT’s Seed Systems Models and Lessons Learned booklet explains the rationale of ICRISAT’s work on seed systems in the drylands, the different approaches and their impact on the ground. Improving farmers’ access to improved seeds in the drylands is seen as a cost-effective strategy to improve farm productivity and food security. Different models of seed systems are tested and developed by ICRISAT and its development partners in sub-Saharan Africa and Asia depending on the local context. It includes small seed packets, groundnut seed revolving fund in Malawi, support to community-based systems, farmer seed organizations or local seed ventures, and public private seed partnerships like the Hybrid Parents Research Consortium for pearl millet and sorghum in India. ICRISAT’s vision on seed systems is demand-driven, holistic and working in partnership, along the crop value chain.
Phenotypic variability of drought avoidance shoot and root phenesTropical Legumes III
Research results suggests it is important to design an integrated strategy combining plant phenomics, genomics, agronomy and modeling to maximize crop productivity in a given environment or stress scenario and to develop guidelines for farming options in the face of climate variability in sub-Saharan Africa.
Innovative approach on common bean based technology generation and promotion ...Tropical Legumes III
Higher production of Common beans (Phaseolus vulgaris L), is constrained with several biotic and abiotic factors and the common bean research program in Ethiopia aims at contributing to the improvement of the livelihoods of smallholder farmers through generation and promotion of improved varieties which are demand driven, climate-smart, and tolerant to biotic and abiotic constraint.
Development of high yielding medium duration groundnut tolerant to early leaf...Tropical Legumes III
Early Leaf Spots (ELS) is one of the major fungal foliar diseases in Mali negatively affecting agronomic performance of groundnut where yield reduction can exceed 30%. It is important to develop new varieties that combine yield potential and tolerance to ELS, scientist under the umbrella of TL III aimed to develop highly yielding medium duration groundnut tolerant to ELS which is discussed in the poster presentation.
In Uganda, groundnut (Arachis hypogaea L) the second most important legume after beans and is cultivated on nearly 260,000 ha, representing 24.6% of the total arable land. A combined approach including Marker Assisted Selection, agro-ecological testing using Breeding Management Systems (BMS) software shows some promising perspectives and efficacy to resolve the current constraints challenging the crop performance, read more in the poster.
Assessment of common bean genotypes for farmers’ preferencesTropical Legumes III
Commonbean (Phaseolus vulgaris) plays a principal role in the livelihoods of smallholder farmers in Tanzania. It is estimated that over 75% of rural households in Tanzania depend on beans for daily subsistence. In order to ensure preferences and acceptance of developed bean varieties, farmers are involved in variety selection procedures through participatory research approach. Involvement of farmers confirms awareness, acceptance, adoption and spatial diffusion of the developed bean varieties.
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.
Advances in groundnut breeding for drought prone west and central africaTropical Legumes III
ICRISAT has been working with national breeding programs to develop climate resilient improved groundnut varieties. The Tropical Legumes project been instrumental in strengthening the breeding program in the regions and have distributed >1,000 advanced breeding lines to national programs. Farmer preferred variety selection (FPVS) was found very useful for fast track release and adoption of improved varieties. Twenty two high yielding (yield advantage of >20%) varieties resistance/tolerance to drought and major diseases have been released/registered across the region as a result of project efforts (4 in Ghana, 5 in Mali, 4 in Niger, 3 in Nigeria and 6 in Senegal).
Advances in groundnut (arachis hypogaea l.) breeding for resilient cropping s...Tropical Legumes III
Smallholder farmers’ who follow recommended practices including optimal crop density and planting time benefit with yield improvement. The study held under TL III on “Advances in groundnut (Arachis hypogaea L.) breeding for resilient cropping systems in Burkina Faso” substantiates the above statement.
Advances in chickpea crop improvement for improved productivity and resilient...Tropical Legumes III
#DYK National production of Chickpea in Ethiopia have doubled (1.9 ton ha-1) compared to what it was a decade ago. However, the country’s share in the global chickpea export market is only about 4%, study conducted under TL III suggests some future directions to address this: crop improvement to meet quality requirements, drought and heat tolerant varieties, mechanized farming, strengthen seed system to satisfy the increasing demand, enhance technology dissemination and market linkage, strengthened small-pack approach and push chickpea to non-traditional potential areas.
Eighth bulletin of the quarterly publication of Tropical Legumes III (TL III)...Tropical Legumes III
This edition of the bulletin focusses on the progress made under Objective 6: “Developing Sustainable and Impact- Oriented Legume Seed Systems for smallholders in Sub-Saharan Africa and South Asia”, during year 1 of the project implementation.
Seventh bulletin of the quarterly publication of Tropical Legumes III (TL III...Tropical Legumes III
This bulletin focusses on the progress made under objective four: enhancing common bean productivity and production in focus geographies of sub-Saharan Africa, during year one of
phase III implementation.
Welfare impacts of improved chickpea adoption a pathway for rural development...Tropical Legumes III
Study on impact of improved chickpea adoption on welfare in Ethiopia using three rounds of panel data. The study found that increasing access to improved chickpea appears a promising pathway for rural development in Ethiopia’s chickpea growing regions. Published by Elsevier
Ltd. Open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
Sixth bulletin of the quarterly publication of Tropical Legumes III (TL III) ...Tropical Legumes III
This edition of the bulletin features: Key highlights, achievements, lessons learnt during year 1 of project implementation and success stories from the field.
Setting and facilitation of functional innovation platform: Training of TL III project support teams in groundnut and common bean seed systems in Tanzania and Uganda
Professional air quality monitoring systems provide immediate, on-site data for analysis, compliance, and decision-making.
Monitor common gases, weather parameters, particulates.
Comparing Evolved Extractive Text Summary Scores of Bidirectional Encoder Rep...University of Maribor
Slides from:
11th International Conference on Electrical, Electronics and Computer Engineering (IcETRAN), Niš, 3-6 June 2024
Track: Artificial Intelligence
https://www.etran.rs/2024/en/home-english/
The ability to recreate computational results with minimal effort and actionable metrics provides a solid foundation for scientific research and software development. When people can replicate an analysis at the touch of a button using open-source software, open data, and methods to assess and compare proposals, it significantly eases verification of results, engagement with a diverse range of contributors, and progress. However, we have yet to fully achieve this; there are still many sociotechnical frictions.
Inspired by David Donoho's vision, this talk aims to revisit the three crucial pillars of frictionless reproducibility (data sharing, code sharing, and competitive challenges) with the perspective of deep software variability.
Our observation is that multiple layers — hardware, operating systems, third-party libraries, software versions, input data, compile-time options, and parameters — are subject to variability that exacerbates frictions but is also essential for achieving robust, generalizable results and fostering innovation. I will first review the literature, providing evidence of how the complex variability interactions across these layers affect qualitative and quantitative software properties, thereby complicating the reproduction and replication of scientific studies in various fields.
I will then present some software engineering and AI techniques that can support the strategic exploration of variability spaces. These include the use of abstractions and models (e.g., feature models), sampling strategies (e.g., uniform, random), cost-effective measurements (e.g., incremental build of software configurations), and dimensionality reduction methods (e.g., transfer learning, feature selection, software debloating).
I will finally argue that deep variability is both the problem and solution of frictionless reproducibility, calling the software science community to develop new methods and tools to manage variability and foster reproducibility in software systems.
Exposé invité Journées Nationales du GDR GPL 2024
Travis Hills' Endeavors in Minnesota: Fostering Environmental and Economic Pr...Travis Hills MN
Travis Hills of Minnesota developed a method to convert waste into high-value dry fertilizer, significantly enriching soil quality. By providing farmers with a valuable resource derived from waste, Travis Hills helps enhance farm profitability while promoting environmental stewardship. Travis Hills' sustainable practices lead to cost savings and increased revenue for farmers by improving resource efficiency and reducing waste.
ESR spectroscopy in liquid food and beverages.pptxPRIYANKA PATEL
With increasing population, people need to rely on packaged food stuffs. Packaging of food materials requires the preservation of food. There are various methods for the treatment of food to preserve them and irradiation treatment of food is one of them. It is the most common and the most harmless method for the food preservation as it does not alter the necessary micronutrients of food materials. Although irradiated food doesn’t cause any harm to the human health but still the quality assessment of food is required to provide consumers with necessary information about the food. ESR spectroscopy is the most sophisticated way to investigate the quality of the food and the free radicals induced during the processing of the food. ESR spin trapping technique is useful for the detection of highly unstable radicals in the food. The antioxidant capability of liquid food and beverages in mainly performed by spin trapping technique.
ANAMOLOUS SECONDARY GROWTH IN DICOT ROOTS.pptxRASHMI M G
Abnormal or anomalous secondary growth in plants. It defines secondary growth as an increase in plant girth due to vascular cambium or cork cambium. Anomalous secondary growth does not follow the normal pattern of a single vascular cambium producing xylem internally and phloem externally.
This presentation explores a brief idea about the structural and functional attributes of nucleotides, the structure and function of genetic materials along with the impact of UV rays and pH upon them.
Observation of Io’s Resurfacing via Plume Deposition Using Ground-based Adapt...Sérgio Sacani
Since volcanic activity was first discovered on Io from Voyager images in 1979, changes
on Io’s surface have been monitored from both spacecraft and ground-based telescopes.
Here, we present the highest spatial resolution images of Io ever obtained from a groundbased telescope. These images, acquired by the SHARK-VIS instrument on the Large
Binocular Telescope, show evidence of a major resurfacing event on Io’s trailing hemisphere. When compared to the most recent spacecraft images, the SHARK-VIS images
show that a plume deposit from a powerful eruption at Pillan Patera has covered part
of the long-lived Pele plume deposit. Although this type of resurfacing event may be common on Io, few have been detected due to the rarity of spacecraft visits and the previously low spatial resolution available from Earth-based telescopes. The SHARK-VIS instrument ushers in a new era of high resolution imaging of Io’s surface using adaptive
optics at visible wavelengths.
Seminar of U.V. Spectroscopy by SAMIR PANDASAMIR PANDA
Spectroscopy is a branch of science dealing the study of interaction of electromagnetic radiation with matter.
Ultraviolet-visible spectroscopy refers to absorption spectroscopy or reflect spectroscopy in the UV-VIS spectral region.
Ultraviolet-visible spectroscopy is an analytical method that can measure the amount of light received by the analyte.
Remote Sensing and Computational, Evolutionary, Supercomputing, and Intellige...University of Maribor
Slides from talk:
Aleš Zamuda: Remote Sensing and Computational, Evolutionary, Supercomputing, and Intelligent Systems.
11th International Conference on Electrical, Electronics and Computer Engineering (IcETRAN), Niš, 3-6 June 2024
Inter-Society Networking Panel GRSS/MTT-S/CIS Panel Session: Promoting Connection and Cooperation
https://www.etran.rs/2024/en/home-english/
Toxic effects of heavy metals : Lead and Arsenicsanjana502982
Heavy metals are naturally occuring metallic chemical elements that have relatively high density, and are toxic at even low concentrations. All toxic metals are termed as heavy metals irrespective of their atomic mass and density, eg. arsenic, lead, mercury, cadmium, thallium, chromium, etc.
Third bulletin of the quarterly publication of Tropical Legumes III (TL III) project
1. About the bulletin
The Bulletin of Tropical Legumes is a
quarterly publication of the Tropical
Legumes III (TL III) project, funded by the
Bill & Melinda Gates Foundation, and
jointly implemented by the International
Crops Research Institute for the Semi-
Arid Tropics (ICRISAT), the International
Center for Tropical Agriculture (CIAT) and
the International Institute of Tropical
Agriculture (IITA) in close collaboration
with partners in the national agricultural
research systems of target countries in sub-
Saharan Africa and South Asia. TL III aims
to improve the livelihoods of smallholder
farmers in drought-prone areas of the two
regions through enhanced productivity and
production of grain legumes.
03
2015
Bulletin of Tropical Legumes
Project:
Tropical Legumes III
(TL III)
Investor:
Bill & Melinda
Gates Foundation
Partners:
This work has
been undertaken
as part of the
The Tropical Legumes II project
accelerated Chickpea Revolution in
southern India
Chickpea has always been the most important
pulse crop of India, well recognized for its
benefits to soil fertility in crop rotation with
cereals and its nutritive value in vegetarian
diets when consumed with cereals. Since the
known history of chickpea cultivation, India
has continued to remain the largest producer
and consumer of chickpea. During early 1960s,
chickpea area in India was over 9 million ha and
Indian contribution to global chickpea production
was over 75%. The expansion of irrigation and
high input agriculture during the era of the
Green Revolution brought substantial changes
in cropping patterns in India. The area of rainfed
crops like chickpea and other pulses declined,
while the area of wheat, rice and other input
responsive crops increased substantially.
The chickpea area continued to decline in India
and reached the lowest level of 5.2 million ha
during 2001. As a result, Indian share in global
chickpea production declined to 55% and Indian
chickpea import reached the highest level of 0.5
million ton in that year.
There has been an impressive growth in area,
productivity and production of chickpea in India since
2001 (Figure 1). There are several factors contributing
to this progress including strong policy support and
various developmental schemes of the Government of
India, availability of better varieties and technologies
and increased market price of chickpea. Despite a good
growth in chickpea production, the gap in demand and
supply of chickpea continued and India remained the
largest importer of chickpea in most of the years during
2001 to 2009. However, in recent years, Indian export
of chickpea has increased considerably and it exceeded
Indian import of chickpea during 2010 and 2011. During
2012-13, India had a record high production (8.8 million
tons) and a record high yield (1020 kg ha-1
) of chickpea.
As chickpea is a cool season crop, the general
perception is that it requires cooler and longer winter
season and is more suited to northern India. It was
probably true for the earlier varieties which were bred
for cooler and long-season environments. Thus, the
major chickpea area was earlier confined to northern
and central India. However, the scenario of chickpea
cultivation has drastically changed in India during the
past five decades, primarily because of two factors - (1)
the Green Revolution that intensified wheat cultivation
in northern India replacing postrainy season pulses,
particularly chickpea, and (2) development of short
duration chickpea varieties that are better adapted to
warmer, short-season environments, like central and
southern India. There has been a major shift (about 4.0
million ha) in chickpea area from northern India (cooler,
long-season environments) to central and southern
India (warm, short-season environments). During the
triennium 1965-67 and 2011-13, the chickpea area
declined from 4.7 to 0.7 million ha in northern states
(Punjab, Haryana and Uttar Pradesh), while it increased
Figure 1. Trend in area, production and yield of chickpea in
India during triennium 2001-03 to 2011-13.
0
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2. Bulletin of Tropical Legumes2
from 2.1 to 6.1 million ha in central and southern states
(Madhya Pradesh, Chhattisgarh, Maharashtra, Andhra
Pradesh and Karnataka) (Figure 2).
ICRISAT has a global mandate for chickpea improvement
and its headquarters is based in Patancheru, near
Hyderabad in Telangana state of southern India. The
genebank of ICRISAT has the largest global collection
(>20,000 accessions) of chickpea germplasm. ICRISAT
supplies germplasm and breeding materials to the
researchers globally. The breeding material supplied
by ICRISAT has led to release of 90 cultivars in 11
countries. ICRISAT being hosted in India has had strong
collaboration with Indian chickpea research programs
of ICAR institutions (Indian Institute of Pulses Research
and Indian Agricultural Research Institute) and state
agricultural universities (SAUs) working under the
umbrella of All India Coordinated Research Project
(AICRP) on chickpea. The major emphasis of ICRISAT’s
chickpea breeding program has been on development of
early maturing varieties with high resistance to Fusarium
wilt and high yield potential. Short duration cultivars
escape terminal drought and heat stresses and enhance
adaptation of chickpea to warmer, short-season
environments. Forty high yielding chickpea varieties
with early to medium maturity and high resistance to
Fusarium wilt have been developed and released in
India from the breeding materials supplied by ICRISAT.
The most popular varieties developed through ICRISAT-
India partnership include JG 11, JAKI 9218, JG 130, JG
14, JG 16, KAK 2, Pratap Chana 1, Vishal, JGK 2, ICCC
37, Virat, JGK 1, JG 6, JGK 3, Vaibhav, IPCK 2004-29,
GG 4, GG 2, ICCV 10, Himachal Chana - 2, ICCV 2, Vihar
and CO 4. These varieties have shown high adoptions,
particularly in central and southern India, and accounted
for about 49% of the indent of chickpea breeder seed in
India during 2013-14.
Southern India has warmer and shorter winter season
and was earlier not considered suitable for chickpea
production. But a chickpea revolution has taken place in
Andhra Pradesh and Karnataka states of southern India
during the recent years. During the triennium
1999-2001 to 2008-10, the chickpea production in
Andhra Pradesh increased 5.8-fold (from 151,000 to
872,000 tons) due to 3.7-fold increase in area (from
170,000 to 628,000 ha) and 60% increase in productivity
(870 to 1389 kg/ha) (Figure 3). However, the drought
during the triennium 2011-13, reduced the productivity
to 1091 kg/ha and production to 667,000 tons. In
Karnataka state, the chickpea production increased
2.9-fold (197,000 tons to 574,000 tons) due to 2.7-fold
increase in area (336,000 ha to 911,000 ha) and 8%
increase in productivity (582 kg to 627 kg/ha) during the
triennium 1999-2001 to 2011-13 (Figure 4).
Andhra Pradesh and Karnataka have been the target
states for chickpea research for development (R4D)
activities of TL II project in India during Phase I and
Phase II (Figure 5). Kurnool and Prakasam in Andhra
Pradesh, and Dharwad and Gulbarga in Karnataka were
the target districts included in Phase I. The districts
added in Phase II included Anantpur in Andhra Pradesh
and Raichur and Bijapur in Karnataka. The partners
involved in the project included ICRISAT, Acharya NG
Ranga Agricultural University (ANGRAU) – Hyderabad,
University of Agricultural Sciences (UAS) – Raichur, UAS
– Dharwad, Andhra Pradesh State Seed Development
Corporation (APSSDC), Karnataka State Seed Corporation
Figure 2. Shift in chickpea area from northern India to
central and southern India.
Figure 3. Trend in area, production and yield of chickpea in
Andhra Pradesh state of India during triennium 1999-2001
to 2011-13.
Figure 4. Trend in area, production and yield of chickpea
in Karnataka state of India during triennium 1999-2001 to
2011-13.
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Central and Southern India
Northern India
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3. 3Bulletin of Tropical Legumes
(KSSC), National Seed Corporation (NSC), State Farms
Corporation of India Limited (SFCI), Department of
Agriculture – Government of Andhra Pradesh, and
Department of Agriculture – Government of Karnataka.
The major achievements of TL II project activities in
Andhra Pradesh and Karnataka are described below:
1. Identification of farmer and market
preferred chickpea cultivars
The current status of adoption of improved varieties
and traits preferred by the farmers were assessed at
the beginning of the project. Taking into account farmer
and market preferred traits, eight improved cultivars/
breeding lines (4 desi + 4 kabuli) were selected for
farmer-participatory varietal selection (FPVS) trials
at each of the four project locations (Kurnool and
Prakasam districts in Andhra Pradesh, and Dharwad and
Gulbarga districts in Karnataka). Twenty mother trials
and 217 baby trials were conducted in 23 villages
(5 to 8 villages in each district) during 2007-08 to expose
farmers to improved cultivars and allow them to select
cultivars of their preference. The crop in Prakasam
district of Andhra Pradesh was destroyed in the first year
by heavy rains at maturity, so FPVS trials were repeated
in the second year (2008-09). A total of 1181 farmers
(1052 men + 129 women) were involved in ranking of
varieties in FPVS trials. The desi chickpea cultivars JG
11 and JAKI 9218 were preferred in all four districts.
In addition to these, desi chickpea cultivar JG 130 was
preferred in both the districts of Andhra Pradesh, while
desi chickpea cultivar BGD 103 and kabuli variety
MNK 1 were preferred in both the districts of Karnataka.
Farmers in Prakasam district of Andhra Pradesh also
preferred kabuli chickpea cultivar KAK 2. The traits for
which these cultivars were preferred included profuse
podding, high productivity, early maturity, resistance
to Fusarium wilt, and market-preferred seed traits (eg,
medium seed size in desi type and large seed size in
kabuli type).
2. Release of cultivars
The results of FPVS trials strengthened release proposals
of varieties. A desi chickpea variety BGD 103 was
released and notified for cultivation in Karnataka state
of India in 2009. This is a high yielding, large-seeded
variety with early maturity and resistance to fusarium
wilt. A kabuli chickpea variety MNK 1 was later released
by the Central Variety Release Committee for South
Zone of India. This variety has extra-large (52 g/100-
seed) seed. One desi variety Nandyal Sanaga 1 (NBeG
Figure 5: Target TL II states for chickpea R4D activities in
southern India.
3) was released in 2012 in Andhra
Pradesh. This is an early maturing,
drought and heat tolerant,
Fusarium wilt resistant and high
yielding variety.
3. Enhancing seed
availability of improved
cultivars
Excellent progress was made in
chickpea seed production and
distribution in Andhra Pradesh and
Karnataka. The research partners
were mainly engaged in production
of breeder seed, but also produced
limited quantities of certified seed
and truthfully-labeled seed. They
together produced 2,093 tons of
seed in Phase I, which includedFigure 6. Women field workers harvesting chickpea crop in Andhra Pradesh.
4. Bulletin of Tropical Legumes4
1,207 tons breeder seed, 205 tons certified seed and
681 tons truthfully-labeled seed. The seed was produced
both at the research stations and the farmers’ fields
under direct supervision of scientists. The share of JG
11 was 84% in breeder seed and 71% in other classes
of seed. In Phase II (2011 and 12), research partners in
these states produced 7,453 tons of breeder seed.
A strong partnership between research partners and
public seed corporations was established, where
research partners produced breeder seed and the public
seed corporations produced foundation and certified
seed. The four seed corporations (NSC, SFCI, APSSDC
and KSSC) together produced 74,531 tons seed in Phase
I and 76,215 tons seed in Phase II. JG 11 had the highest
share in chickpea seed production.
During Phase II, because of policy support from the
state government in Karnataka, 48 small private seed
companies came forward to undertake seed production
of popular chickpea cultivars. These companies
produced 12,752 tons foundation seed and 91,707 tons
certified seed during 2013.
4. Distributing seed samples to farmers
Seed samples of different sizes (2-20 kg) of farmer-
preferred varieties were distributed to farmers for
enhancing their awareness about improved varieties and
making available initial quantity of high quality seed for
further multiplication. In Phase I, a total of 4,979 seed
samples were distributed in four target districts. The total
quantity of seed distributed was 47.5 tons. In Phase II
(2011 & 12), 75 tons of small seed samples of chickpea
(4-25 kg each) were distributed to 11,851 farmers.
5. Knowledge empowerment of farmers,
extension personnel and seed traders
A total of 86 field days/farmers’ fairs were organized in
Phase I and Phase II, in which 28,534 farmers (25,729
men + 2,805 women) participated. These events
exposed farmers to improved cultivars and production
technologies and gave them opportunities of interacting
with researchers, extension personnel and development
agencies.
Efforts were made to reach large number of farmers
through electronic and print media to disseminate
information on improved cultivars and crop production
technologies of chickpea. During Phase I and Phase II,
the project partners organized 84 activities (TV and radio
programs, news and articles in newspapers, leaflets,
booklets, etc) during crop growth period to enhance
farmers’ awareness on integrated chickpea production
practices. A chickpea seed production manual was
published in English, Telugu (for Andhra Pradesh) and
Kannada (for Karnataka) languages. The English version
is available online (www.icrisat.org/tropicallegumesII/
pdfs/ChickpeaManual_full.pdf).
Training on improved chickpea production technology
was provided to extension personnel from research
organizations, Department of Agriculture (Agricultural
Officers, Assistant Directors of Agriculture) and NGOs.
A total of 2,449 extension personnel (2,073 men + 376
women) were given training at research stations located
in the district.
In addition to the public seed sector, the local seed
traders play an important role in making seed available
to farmers. Training programs were organized for
improving knowledge and skill of local seed traders in
proper handling of seed. In Phases I and II, a total of
290 seed traders from Andhra Pradesh and Karnataka
Training of farmers in
improved chickpea production
technology, seed production
and storage was given high
priority. Over 200 training
programs were organized
by NARS partners in Phase I
and Phase II in which 14,699
farmers (13,364 men + 1,335
women) participated. The
various topics covered in the
training programs included
FPVS trials, improved chickpea
varieties, improved chickpea
production technologies,
integrated pest management;
seed production, processing
and storage; and post-harvest
value addition.
Figure 7. Farmers threshing a bumper crop of chickpea in Andhra Pradesh.
5. 5Bulletin of Tropical Legumes
states were provided training on seed processing and
safe storage.
Baseline and early adoption studies
A desi chickpea cultivar “Annigeri-1” developed in
1940 (officially notified in 1978) has been the ruling
chickpea variety in Andhra Pradesh and Karnataka
for over six decades. Annigeri-1 is a short-duration
cultivar well adapted to short chickpea growing season
of Andhra Pradesh and Karnataka. The traders also
preferred seed quality of Annigeri-1 and offered 5-10%
less price to other desi varieties, which discouraged
farmers from adopting new varieties. It is estimated that
Annigeri-1 covered over 90% of the chickpea area in
Andhra Pradesh and Karnataka up to the 2003-04 crop
season. A need was felt to replace Annigeri-1 because
of increasing incidence of Fusarium wilt. ICRISAT and
ANGRAU started promoting improved chickpea cultivars
ICCC 37, ICCV 2, JG 11 and KAK 2 in Andhra Pradesh
prior to start of the TL II project. As a result, area of
Annigeri-1 reduced to 45% in Kurnool district and 24%
in Prakasam district by 2007 (Table 1). However, in
Karnataka, Annigeri-1 occupied 92% area in Dharwad
and 94% area in Gulbarga in 2007 (Table 2).
Concerted efforts made under the TL II project on
knowledge empowerment of farmers on improved
cultivars and production technologies, and enhancing
seed availability accelerated adoption of improved
cultivars by farmers. An early adoption survey was
conducted in 2009-10, which indicated that the area
under improved cultivars (JG 11, KAK 2, JAKI 9218)
promoted under the TL II project increased from 55
to 90% in Kurnool and 67 to 97% in Prakasam district
during 2007 to 2009-10 (Table 1). Similarly, in Karnataka,
the area under improved cultivars (JG 11, KAK 2, BGD
103, JAKI 9218 and MNK 1) promoted under TL II project
increased from 5 to 55% in Dharwad and 2 to 55% in
Gulbarga (Table 2).
The chickpea farmers have significantly benefited
through enhanced yields, improved soil fertility and
increased household nutrition and fodder availability.
As part of a global initiative to assess the impacts of
legumes research in the CGIAR, a study supported by
the Standing Panel on Impact Assessment (SPIA) was
conducted in Andhra Pradesh on adoption and impact
of improved chickpea cultivars during 2012-13. The
complete report can be accessed at http://www.icrisat.
org/what-we-do/mip/SPIA.pdf. The salient findings of
this report are as follows:
▪▪ The improved chickpea varieties developed through
ICRISAT-NARS partnerships were spread to about
98% of the chickpea area in Andhra Pradesh by 2011.
▪▪ Improved chickpea varieties led to a more than
six-fold increase in area cultivated with the crop.
Productivity has doubled, rising by an average
38 kg/ha per year between 1996-97 and 2009-10 in
Andhra Pradesh, compared with an average annual
increase of 5 kg/ha for the country as a whole.
▪▪ The direct welfare benefits accrued to Andhra
Pradesh due to adoption of short duration chickpea
cultivars were estimated at $358.9 million.
Important Lessons for Tropical Legumes III
in India and Africa
Project planning was based on the assumption that
all TL III activities will be built upon the achievements
and outputs of TL II and elements of TL I. The program
will specifically support the breeding pipelines of the
Africa based breeding programs and chickpea varietal
development in Uttar Pradesh. These efforts will result
in the release of varieties that exhibit significantly higher
yields and yield stability in their target production
environments, as well as strong resistances to an
array of key pests of each crop, with taste, cooking
and nutritional qualities and market preference that
Table 1. Adoption of improved chickpea cultivars in the
sample villages of Kurnool and Prakasam districts of
Andhra Pradesh.
Varietal composition
(%) in Kurnool
Varietal composition (%)
in Prakasam
Varieties BL-2007 EA-2009 BL-2007 EA-2009
Annigeri 45.35 10.13 24.48 2.62
ICCV 2 0 0 9.87 0
KAK 2* 1.43 0 26.37 78.5
JG 11* 53.22 89.45 39.28 18.88
JAKI 9218* 0 0.42 0 0
Overall 100.0 100.0 100.0 100.0
*Promoted under TL II project; BL: Baseline in 2007; EA: Early Adoption
survey in 2009-10.
Table 2. Adoption of improved chickpea cultivars in the
sample villages of Dharwad and Gulbarga districts of
Karnataka.
Varietal composition
(%) in Dharwad
Varietal composition
(%) in Gulbarga
Varieties BL-2007 EA-2009 BL-2007 EA-2009
Annigeri 91.5 41 94.2 42
Bhima 2.4 2 0 0
Local or others 1.2 2 4.2 3
KAK 2* 4.9 2 1.6 5
JG 11* 0 23 0 22
BGD 103* 0 18 0 18
JAKI 9218* 0 12 0 0
MNK 1* 0 0 0 10
Overall 100.0 100.0 100.0 100.0
*Promoted under TL II project; BL: Baseline in 2007; EA: Early Adoption
survey in 2009-10.
6. Dec2015
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are equal to or possibly far better than the dominant
varieties now grown in target countries.
Responding to the Bill & Melinda Gates Foundation’s
call for increased focus, TL III will concentrate its efforts
on groundnut, cowpea, common bean and chickpea.
Geographic targets include seven African countries:
Burkina Faso, Nigeria, Mali, Ghana, Tanzania, Ethiopia
and Uganda and the Indian State of Uttar Pradesh. To
leverage the Bill & Melinda Gates Foundation’s earlier
investments in soybean and pigeonpea, which are
not included in TL III, the partners will pursue other
opportunities to build upon and sustain the significant
accomplishments made previously with these crops.
Three complementary research and delivery pillars are
proposed within TL III:
▪▪ Support for the development and release of farmer-
preferred varieties of cowpea and groundnut in
four of the Bill & Melinda Gates Foundation’s focus
countries (Burkina Faso, Ghana, Mali, Nigeria);
common bean and chickpea in Ethiopia; common
bean and groundnut in Tanzania and Uganda; and
chickpea in Uttar Pradesh, India;
▪▪ The strengthening of the legume breeding capabilities
of national partners in all target countries with
support from three CGIAR Centers – ICRISAT ,
IITA and CIAT to promote genetically-driven yield
increases, and
▪▪ The production and delivery of improved seed to
smallholder farmers, particularly female farmers who
often are ignored or overlooked by development
workers.
The successes in the TL II Indian partner states as
documented above were taken as signal that they no
longer need support for breeding and seed delivery
and that TL III should focus its seed work entirely on
the African target geographies, except for the case of
the Indian State of Uttar Pradesh, that was not included
in TL II, but which has significant chickpea hectarage
(>600,000 ha).
There were several lessons learned from the TL II
activities on chickpea in Andhra Pradesh and Karnataka
states of southern India. It was evident that the farmers’
awareness of the improved varieties and availability
of the seed of improved varieties are the key factors
in spread of improved chickpea cultivars. FPVS trials
and distribution of seed samples are very effective in
enhancing awareness of farmers to improved varieties
and rapidly spreading the new varieties. These key
lessons learned from success stories of Andhra Pradesh
and Karnataka will help in improving adoption of
chickpea cultivars in other regions of India and other
countries especially in sub-Saharan Africa.
Contacts: To contribute or participate in Tropical
Legumes – III:
Emmanuel Monyo, Email: e.monyo@cgiar.org. Tel +254
207224566 Mobile: +254729176844
International Crops Research Institute for the Semi-Arid
Tropics (ICRISAT); www.icrisat.org
Mailing Address: ICRISAT, United Nations Avenue Gigiri,
PO Box 39063 – 00623 Nairobi, Kenya
Webpage: www.icrisat.org/tropicallegumesII
For more information on this specific article kindly
contact: p.gaur@cgiar.org or e.monyo@cgiar.org