Relevant bibliographies by topics / ICRISAT

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'ICRISAT'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "ICRISAT"

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Mausch, Kai, Alastair Orr, and B. Paige Miller. "Targeting resilience and profitability in African smallholder agriculture: Insights from ICRISAT-led research programs." FACETS 2, no. 1 (May 1, 2017): 545–58. http://dx.doi.org/10.1139/facets-2017-0029.

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We reviewed the strategy for Agricultural Research for Development (AR4D) adopted by the International Crops Research Institute for the Semi-Arid Tropics (ICRISAT). The objective was to examine ICRISAT’s research strategy related to the twin challenges of resilience and profitability in developing technologies aimed at improving the livelihoods of smallholder farmers in the drylands of Africa. To do this, we examined the expected impact on resilience and profitability of its present program and the realized impact of ICRISAT’s previous research. We argue that the current CGIAR Research Programs led by ICRISAT envisage separate product lines for resilience and profitability, targeted at two groups, i.e., subsistence- and market-oriented smallholders. This approach, expected to make technology more appropriate for farmers’ needs, risks overlooking the interconnectedness of the two targets if they are too rigorously separated. Although our review of ICRISAT’s previous research program suggests that success stories have taken numerous forms—some increasing resilience, others profitability—our review also suggests that it is possible to develop win–win technologies that improve both targets. Finding ways to replicate win–win technologies will require that ICRISAT tests the resulting technologies and their implementation in specific contexts to improve and replace them as the research programs evolve.
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Bhattacharyya, T., Suhas P. Wani, D. K. Pal, K. L. Sahrawat, S. Pillai, A. Nimje, B. Telpande, P. Chandran, and Swati Chaudhury. "ICRISAT, India Soils:Yesterday, Today and Tomorrow." Current Science 110, no. 9 (May 1, 2016): 1652. http://dx.doi.org/10.18520/cs/v110/i9/1652-1670.

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Upadhyaya, Hari D., C. L. L. Gowda, H. K. Buhariwalla, and J. H. Crouch. "Efficient use of crop germplasm resources: identifying useful germplasm for crop improvement through core and mini-core collections and molecular marker approaches." Plant Genetic Resources 4, no. 1 (April 2006): 25–35. http://dx.doi.org/10.1079/pgr2006107.

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Conservation of crop germplasm diversity involves the establishment of in situ and ex situ genebanks. The major activities for ex situ genebanks include assembling, conserving, characterizing and providing easy access to germplasm for scientists. More than six million accessions are currently assembled in over 1300 genebanks worldwide. ICRISAT is one of the 15 CGIAR centres, with headquarters at Patancheru, India, and conserves genetic resources of sorghum, pearl millet, chickpea, pigeonpea, groundnut, and six small millets. The ICRISAT genebank holds 114,870 accessions from 130 countries, including both archival materials from various organizations throughout the world, and from fresh collections resulting from 213 missions in 62 countries. The ICRISAT genebank supplies annually over 40,000 germplasm samples to scientists worldwide. Sixty-six varieties selected from the basic germplasm have been released for cultivation in 44 countries, and ICRISAT has restored/repatriated crop germplasm to eight countries. The research focus is on germplasm diversity assessment, developing core and mini-core collections, and using a molecular characterization approach to both enhance the utilization of germplasm in research and improve the efficiency of germplasm management. Following these approaches, we have been able to identify a significant number of accessions with traits potentially relevant for crop improvement.
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Sauter, K. J., G. R. Gingera, and D. W. Davis. "Adaptation of Pigeonpea (Cajanus cajan Millsp.) to a Loamy Sand Site in Minnesota." HortScience 30, no. 2 (April 1995): 350–52. http://dx.doi.org/10.21273/hortsci.30.2.350.

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Pigeonpea, a subtropical legume, was successfully grown in a high-latitude (≈45°N) environment. Four short-season pigeonpea accessions from the International Crops Research Institute for the Semi-Arid Tropics (ICRISAT) were subjected to three cycles of pedigree selection. Performance trials (175,000 plants/ha) were conducted on loamy sand with dryland and irrigated sites in 1991 and 1992. Thirty-eight S3-derived lines from ICRISAT ICPL 83004 were used in both years and seven S3-derived lines from ICRISAT P 2125 and ICRISAT ICPL 85010 were added the second year. Differences (P ≤ 0.05) in seed yield (kg·ha–1) were observed among the S3 lines, with a maximum yield of 1468 kg·ha–1. The lines also differed (P ≤ 0.05) for harvest index (HI), calculated as the ratio of seed yield to shoot total dry matter (TDM) with a maximum of 0.48 (line MF-26). Dryland seed yield was strongly correlated with TDM (r2 = 0.98), HI (r2 = 0.92), and early bloom (r2 = 0.76). In a time-of-planting comparison of seven lines in 1992, seed yield was highest (754 kg·ha–1) at the earliest (29 Apr.) planting date and declined progressively to 178 kg·ha–1 at the latest (2 June) planting date, while HI decreased from 0.42 to 0.12. Plants were shorter at maturity in the earliest planting date.
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Mengesha, Melak H., and S. Appa Rao. "Genetic resources of pearl millet at Icrisat." Journal d'agriculture traditionnelle et de botanique appliquée 33, no. 1 (1986): 59–67. http://dx.doi.org/10.3406/jatba.1986.3946.

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Jotwani, D., and L. J. Haravu. "Pricing of the SDI service at ICRISAT." Journal of Information Science 19, no. 1 (February 1993): 51–55. http://dx.doi.org/10.1177/016555159301900107.

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Upadhyaya, H. D., S. L. Dwivedi, S. Sharma, N. Lalitha, S. Singh, R. K. Varshney, and C. L. L. Gowda. "Enhancement of the use and impact of germplasm in crop improvement." Plant Genetic Resources 12, S1 (July 2014): S155—S159. http://dx.doi.org/10.1017/s1479262114000458.

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Plant genetic resources are raw materials and their use in breeding is one of the most sustainable ways to conserve biodiversity. The ICRISAT has over 120,000 accessions of its five mandate crops and six small millets. The management and utilization of such large diversity are greatest challenges to germplasm curators and crop breeders. New sources of variations have been discovered using core and minicore collections developed at the ICRISAT. About 1.4 million seed samples have been distributed; some accessions with specific attributes have been requested more frequently. The advances in genomics have led researchers to dissect population structure and diversity and mine allelic variations associated with agronomically beneficial traits. Genome-wide association mapping in sorghum has revealed significant marker–trait associations for many agronomically beneficial traits. Wild relatives harbour genes for resistance to diseases and insect pests. Resistance to pod borer in chickpea and pigeonpea and resistance to rust and late leaf spot in groundnut have been successfully introgressed into a cultivated genetic background. Synthetics in groundnut are available to broaden the cultigen's gene pool. ICRISAT has notified the release of 266 varieties/cultivars, germplasm, and elite genetic stocks with unique traits, with some having a significant impact on breeding programs. Seventy-five germplasm lines have been directly released for cultivation in 39 countries.
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Upadhyaya, H. D., M. E. Ferguson, and P. J. Bramel. "Status of the Arachis Germplasm Collection at ICRISAT." Peanut Science 28, no. 2 (January 1, 2001): 89–96. http://dx.doi.org/10.3146/i0095-3679-28-2-10.

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Abstract ICRISAT maintains a substantial Arachis germplasm collection of 14,723 accessions, comprising 14,310 accessions of cultivated peanut (Arachis hypogaea L.) from 92 countries and 413 accessions of wild species representing 43 taxa. All germplasm is freely available for distribution. Forty-five percent of the cultivated peanut collection is of var. hypogaea, followed by 35.7% var. vulgaris and 16.1% var.fastigiata. Varieties hirsuta and aequatoriana are represented by 20 and 15 accessions, respectively. All passport and characterization data are accessible through the internet. To enhance the utilization of the collection and understand the diversity it contains, efforts have focused on characterization and documentation of the collection and the formation of a core of 1704 A. hypogaea accessions. These are representative of the genetic diversity in the entire collection. The core provides an entry point into the collection and is currently being evaluated for maturity, biotic, and abiotic stress resistance and quality parameters, including aflatoxin contamination. A subset of the core is used in prescreening for polymorphic molecular markers. Evaluation of the wild Arachis collection to major abiotic stresses is a continuing process. Future efforts in both the wild and cultivated collections will focus on germplasm exchange and acquisition, and specific regions for future collections are identified. The development of molecular markers for diversity assessments in all Arachis taxa and alternative strategies for utilization of the wild species are also important areas of research.
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Upadhyaya, H. D., K. N. Reddy, M. Vetriventhan, Murali Krishna Gumma, M. Irshad Ahmed, M. Thimma Reddy, and Shailesh Kumar Singh. "Status, genetic diversity and gaps in sorghum germplasm from South Asia conserved at ICRISAT genebank." Plant Genetic Resources 15, no. 6 (June 29, 2016): 527–38. http://dx.doi.org/10.1017/s147926211600023x.

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AbstractThe genebank at ICRISAT, India that serves as a world repository for sorghum germplasm conserves 39,234 accessions from 93 countries, including 6249 from seven South Asian countries: Afghanistan (6), Bangladesh (9), India (6101), the Maldives (10), Nepal (8), Pakistan (90) and Sri Lanka (25). A total of 5340 georeferenced accessions were used to identify gaps, and 5322 accessions that were characterized at ICRISAT were used to assess the diversity in the collection. Accessions of basic races varied widely than those of intermediate races for flowering in the postrainy season, plant height in both rainy and postrainy seasons, panicle exsertion, panicle length and width, seed size and 100 seed weight. Landraces from India were late flowering, tall and produced stout panicles and larger seeds. Landraces from Pakistan flowered early in both seasons and produced stout panicles and those from Sri Lanka were late flowering and tall in both seasons, produced more basal tillers and stout panicles. A total of 110 districts in 20 provinces of India, 13 districts in three provinces of Pakistan, three districts in Bangladesh and five districts in four provinces of Sri Lanka were identified as geographical gaps. Sorghum bicolor subsp. verticilliflorum, S. halepense and S. propinquum were identified as taxonomic gaps in the collection. Therefore, it is suggested to explore the districts identified as gaps to enrich the variability in the world collection of sorghum at ICRISAT.
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Kumar, Are Ashok, Belum Venkata Subba Reddy, Hari Chand Sharma, Charles Thomas Hash, Pinnamaneni Srinivasa Rao, Bhavanasi Ramaiah, and Pulluru Sanjana Reddy. "Recent Advances in Sorghum Genetic Enhancement Research at ICRISAT." American Journal of Plant Sciences 02, no. 04 (2011): 589–600. http://dx.doi.org/10.4236/ajps.2011.24070.

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Dissertations / Theses on the topic "ICRISAT"

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Imai, Katsushi. "Savings, risk coping, and poverty dynamics of rural households in developing countries." Thesis, University of Oxford, 2000. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.365673.

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Judek, Clement. "The contribution of virtual crisis simulations to the study of crisis management situations : the case of iCrisis crisis simulation approach." Electronic Thesis or Diss., Université de Lorraine, 2019. http://www.theses.fr/2019LORR0350.

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L'apparition de crises majeures illustre d'une part la forte intensité de ces événements, mais aussi la complexité et l'interdépendance croissantes des systèmes, qui se traduisent par un plus grand nombre d'organisations touchées. De nos jours, de nombreux événements sont considérés comme des crises, alors qu'il ne peut s'agir que d'une urgence. Cette utilisation du terme «crise» peut être contre-productive car, en raison de sa nature unique, la crise nécessite des capacités spéciales telles que l'adaptation, contrairement aux événements dans le domaine de la gestion des urgences qui nécessitent l'application d'une procédure. Pour réduire le risque de crises majeures, la prévention et la protection sont nécessaires. Cependant, toutes les situations ne sont pas prévisibles et pour cette raison, les organisations exposées doivent être préparées. Pour préparer et améliorer l'expérience des gestionnaires de crise, la simulation apparaît comme une solution. Les simulations de crise permettent de sensibiliser les organisations aux situations de crise et de leur permettre d'acquérir de l'expérience en les plaçant dans un environnement virtuel qui essaie de reproduire au maximum les conditions réelles. L'objectif de reproduire la situation aussi fidèlement que possible est nécessaire, mais il n'existe aucune méthode de vérification/validation pour s'assurer que la méthode de simulation est vraiment efficace. De plus, la majorité des simulateurs de crise existants visent à atteindre un objectif pédagogique adressé aux personnes impliquées dans des situations d'urgence ou de crise. Toutefois, en raison de la nature complexe des situations de crise, il est dans l'intérêt de procéder à des simulations de crise pour enquêter sur la crise elle-même. Dans ce contexte, nous nous proposons de nous interroger sur la capacité de l'approche de simulation de crise iCrisis à placer les managers stratégiques dans une situation aux caractéristiques similaires à celles d'une «crise réelle». Cette approche intéressante dans le cadre des objectifs pédagogiques donnés permet également de s'ouvrir à des objectifs moins connus pour les simulateurs de crise : atteindre des objectifs scientifiques. En effet, un tel système permet-il aussi d'étudier certains aspects de la crise ? A travers ce manuscrit, nous tenterons de contribuer à la réflexion sur ces deux aspects. Pour donner des éléments de réponse à ces questions, ce manuscrit propose 5 chapitres : - Le chapitre 1 vise à comprendre le positionnement du concept de crise par rapport au concept d'urgence. - Le chapitre 2 est consacré à la définition de la crise qui est utilisée dans la recherche. - Le chapitre 3 traite de la méthodologie de recherche en mettant l'accent sur la simulation iCrisis. - Le chapitre 4 présente l'étude qui a consisté à observer si les participants aux simulations iCrisis ont vécu les caractéristiques d'une crise réelle. - Le chapitre 5 présente deux études qui ont été réalisées. L'une concerne l'évaluation de la charge mentale et. Le second concerne le test d'utilisation d'un outil qui évalue les effets en cascade. La recherche a permis de clarifier la différence entre urgence et crise, puis de proposer une définition de la crise à partir de ses caractéristiques. Elle a également permis de concrétiser l'approche de simulation de crise iCrisis qui est décrite avec précision. Le deuxième résultat important est la présentation de l'étude l'étude qui avait pour but d'observer que les caractéristiques de la crise sont bien observables lors d'une simulation iCrisis. Enfin, nous démontrons que les études sur les questions appliquées à la crise peuvent être réalisées avec iCrisis et donner des résultats
The emergence of major crises illustrates, on the one hand, the high intensity of these events, but also the increasing complexity and interdependence of systems, which are resulting in a larger number of affected organizations. Nowadays, many events are considered as crises, whereas they can only be emergencies. This use of the term «crisis» can be counterproductive because, due to its unique nature, the crisis requires special capabilities such as adaptation, unlike events in the field of emergency management that require the application of a procedure. To reduce the risk of major crises, prevention and protection are necessary. However, not all situations are predictable and for this reason, the organizations exposed must be prepared. To prepare and improve the experience of crisis managers, simulation appears to be a solution. Stress simulations raise awareness of crisis situations and allow organizations to gain experience by placing them in a virtual environment that tries to reproduce real conditions as much as possible. The objective of reproducing the situation as accurately as possible is necessary, but there is no verification/validation method to ensure that the simulation method is really effective. In addition, the majority of existing crisis simulators aim to achieve an educational objective for people involved in emergency or crisis situations. However, due to the complex nature of crisis situations, it is in the interest of conducting stress tests to investigate the crisis itself. In this context, we propose to question the ability of the iCrisis crisis simulation approach to place strategic managers in a situation with similar characteristics to those of a «real crisis». This interesting approach within the framework of the given pedagogical objectives also makes it possible to open up to objectives less known for crisis simulators: to achieve scientific objectives. Indeed, does such a system also make it possible to study certain aspects of the crisis? Through this manuscript, we will try to contribute to the reflection on these two aspects. To provide some answers to these questions, this manuscript proposes 5 chapters: - Chapter 1 aims to understand the positioning of the concept of crisis in relation to the concept of urgency. - Chapter 2 is devoted to the definition of the crisis that is used in research. - Chapter 3 discusses the research methodology with an emphasis on iCrisis simulation. - Chapter 4 presents the study that examined whether participants in iCrisis simulations experienced the characteristics of a real crisis. - Chapter 5 presents two studies that have been conducted. One concerns the assessment of mental workload and. The second is to test the use of a tool that evaluates cascading effects. The research made it possible to clarify the difference between emergency and crisis, and then to propose a definition of the crisis based on its characteristics. It also made it possible to implement the iCrisis crisis simulation approach, which is precisely described. The second important result is the presentation of the study the study which aimed to observe that the characteristics of the crisis are well observable during an iCrisis simulation. Finally, we demonstrate that studies on issues applied to the crisis can be conducted with iCrisis and yield results
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Dyck, Jason Glenn. "Dialectical diffusion: the Rockefeller Foundation, Anil Gupta, and interactions between formal science and indigenous knowledge during India's Green Revolution." 2012. http://hdl.handle.net/1993/5020.

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Dominant narratives of the green revolution focus on the top-down dissemination of technology produced by global scientific networks into developing regions or nations, but comparatively little scholarship has been produced regarding the forms of local knowledge which were transferred during the same process. This thesis will examine several important sites of interaction between formal scientific networks and indigenous knowledge with a focus on moments of historical transition in methodology. A main contention of this thesis is that this dissemination was not just a top-down flow of Western technology into Indian villages, but was rather a dialectical process by which class interest and reductionist science moulded the interaction between disparate knowledge systems. The focus will be an exposition of changes in research methodologies pioneered by the Rockefeller Foundation’s Indian Agriculture Program, the International Crops Research Institute for the Semi-Arid Tropics, and the founder of an indigenous knowledge database NGO, Anil Gupta.
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Books on the topic "ICRISAT"

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International Crops Research Institute for the Semi-Arid Tropics. The jewels of ICRISAT. Patancheru: International Crops Research Institute for the Semi-Arid Tropics, 2012.

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Pundir, R. P. S. ICRISAT chickpea germplasm catalog: Passport information. Patancheru, India: ICRISAT, 1988.

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Remanandan, P. ICRISAT pigeonpea germplasm catalog: Passport information. Patancheru, A.P: ICRISAT, 1988.

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Remanandan, P. ICRISAT pigeonpea germplasm catalog: Passport information. Patancheru, A.P., India: International Crops Research Institute for the Semi-Arid Tropics, 1988.

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Sastry, D. V. S. S. R. and Mengesha Melak H, eds. ICRISAT pigeonpea germplasm catalog: Evaluation and analysis. Patancheru, A.P: ICRISAT, 1988.

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Pundir, R. P. S. ICRISAT chickpea germplasm catalog: Evaluation and analysis. Patancheru, India: ICRISAT, 1988.

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Savitri, Mohapatra, and International Crops Research Institute for the Semi-arid Tropics., eds. Summary proceedings of the second ICRISAT Regional Groundnut Meeting for West Africa: 11-14 Sep 1990, ICRISAT Sahelian Center, Niamey, Niger. Patancheru, Andhra Pradesh, India: ICRISAT, International Crops Research Institute for the Semi-Arid Tropics, 1991.

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ICRISAT Regional Groundnut Meeting for West Africa (1st 1988 ICRISAT Sahelian Center). Summary proceedings of the first ICRISAT Regional Groundnut Meeting for West Africa: 13-16 Sep 1988, ICRISAT Sahelian Center, Niamey, Niger. Edited by Mohapatra Savitri, Usha Raman, and International Crops Research Institute for the Semi-arid Tropics. Patancheru, Andhra Pradesh, India: ICRISAT, International Crops Research Institute for the Semi-Arid Tropics, 1990.

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International Crops Research Institute for the Semi-Arid Tropics. ICRISAT at 40: A journey to prosperity in the dryland tropics. Patancheru: International Crops Research Institute for the Semi-Arid Tropics, 2012.

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Mkhabela, M. S. Performance of some selected ICRISAT groundnut (Arachis Hypogea) genotypes in Swaziland. [Mbabane?: s.n., 1989.

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Book chapters on the topic "ICRISAT"

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Mengesha, Melak H. "International Germplasm Collection, Conservation, and Exchange at ICRISAT." In Conservation of Crop Germplasm-An International Perspective, 47–54. Madison, WI, USA: Crop Science Society of America, 2015. http://dx.doi.org/10.2135/cssaspecpub8.c5.

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Chakravarty, Amit, Anthony Whitbread, Pooran Gaur, Aravazhi Selvaraj, Saikat Datta Mazumdar, Jonathan Philroy, Priyanka Durgalla, Harshvardhan Mane, and Kiran K. Sharma. "Benefitting Smallholder Farmers in Africa: Role of ICRISAT." In India–Africa Partnerships for Food Security and Capacity Building, 73–93. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-54112-5_4.

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Adu-Gyamfi, J. J., O. Ito, J. Arihara, H. Nakano, and C. Johansen. "Government of Japan Project activities at ICRISAT 1984–1999." In Food Security in Nutrient-Stressed Environments: Exploiting Plants’ Genetic Capabilities, 5–8. Dordrecht: Springer Netherlands, 2002. http://dx.doi.org/10.1007/978-94-017-1570-6_2.

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Nene, Y. L., and J. S. Kanwar. "Research on food legumes at the International Crops Research Institute for the Semi-Arid Tropics (ICRISAT), with special reference to chickpea." In World crops: Cool season food legumes, 39–45. Dordrecht: Springer Netherlands, 1988. http://dx.doi.org/10.1007/978-94-009-2764-3_5.

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Wani, S. P., and K. V. Raju. "Adarsha Watershed, Kothapally, ICRISAT’s Innovative Journey: Why, How and What?" In Community and Climate Resilience in the Semi-Arid Tropics, 7–32. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-29918-7_2.

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Krantz, B. A. "Farming Systems Research at ICRISAT*." In Readings in Farming Systems Research and Development, 135–56. Routledge, 2019. http://dx.doi.org/10.4324/9780429303845-10.

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Smithson, J. B. "Breeding advances in chickpeas at ICRISAT." In Progress in Plant Breeding–1, 223–37. Elsevier, 1985. http://dx.doi.org/10.1016/b978-0-407-00780-2.50013-8.

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"Alien gene transfer in groundnut by ploidy and genome manipulations (ICRISAT C.P. No. 277)." In Genetic Manipulation in Plant Breeding, 207–10. De Gruyter, 1986. http://dx.doi.org/10.1515/9783110871944-036.

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Morduch, Jonathan. "Consumption Smoothing Across Space: Testing Theories of Risk-Sharing in the ICRISAT Study Region of South India." In Insurance Against Poverty, 38–56. Oxford University Press, 2004. http://dx.doi.org/10.1093/0199276838.003.0003.

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"Sorghum cultivation and improvement in West and Central Africa E. Weltzien and H. F. W. Rattunde, University of Wisconsin-Madison, USA, formerly International Crop Research Institute for the Semi-Arid Tropics (ICRISAT), International Crop Research Institute for the Semi-Arid Tropics (ICRISAT), Nigeria." In Achieving sustainable cultivation of sorghum Volume 2, 233–56. Burleigh Dodds Science Publishing, 2018. http://dx.doi.org/10.1201/9781351114394-14.

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Conference papers on the topic "ICRISAT"

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"ICRIS 2020 Preface." In 2020 International Conference on Robots & Intelligent System (ICRIS). IEEE, 2020. http://dx.doi.org/10.1109/icris52159.2020.00005.

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"ICRIS 2020 Reviewers." In 2020 International Conference on Robots & Intelligent System (ICRIS). IEEE, 2020. http://dx.doi.org/10.1109/icris52159.2020.00007.

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"ICRIS 2020 Organizing Committee." In 2020 International Conference on Robots & Intelligent System (ICRIS). IEEE, 2020. http://dx.doi.org/10.1109/icris52159.2020.00006.

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Qiang Chen, Sriram Balasubramanian, Ciby Thuruthiyil, Mayank Gupta, Vineet Wason, Niraj Subba, Jung-Suk Goo, Priyanka Chiney, Srinath Krishnan, and Ali B. Icel. "Critical current (ICRIT) based SPICE model extraction for SRAM cell." In 2008 9th International Conference on Solid-State and Integrated-Circuit Technology (ICSICT). IEEE, 2008. http://dx.doi.org/10.1109/icsict.2008.4734560.

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Du, Hui. "Implementation of Improved Fruit Fly Optimization Algorithm in Stock Market Segment Analysis and Forecasting." In 2019 International Conference on Robots & Intelligent System (ICRIS). IEEE, 2019. http://dx.doi.org/10.1109/icris.2019.00131.

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Zhai, Yue, Jianmei Sun, and Ruijie Liu. "Mining Frequent Weighted Itemsets Using Extended N-List and Subsume." In 2019 International Conference on Robots & Intelligent System (ICRIS). IEEE, 2019. http://dx.doi.org/10.1109/icris.2019.00132.

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Ran, Bo, Ziyi Wang, and can Luo. "Practice and Innovation of Team Performance Management Model in Power Supply Enterprises." In 2019 International Conference on Robots & Intelligent System (ICRIS). IEEE, 2019. http://dx.doi.org/10.1109/icris.2019.00133.

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8

Lai, Yong-Hui. "Research On Variable Slope Flow Evolution Motion Test Instrument Based On Water-Sediment Separation And Environmental Protection Recovery Function." In 2019 International Conference on Robots & Intelligent System (ICRIS). IEEE, 2019. http://dx.doi.org/10.1109/icris.2019.00134.

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9

Lin, Naijing. "Simulation Research on Layout Form Planning of Urban Miniature Public Space." In 2019 International Conference on Robots & Intelligent System (ICRIS). IEEE, 2019. http://dx.doi.org/10.1109/icris.2019.00135.

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10

Sun, Kaiyang. "The Construction of Quantitative Research on Evaluation of Independent Innovation Ability of Small and Medium-Sized Industrial Enterprises." In 2019 International Conference on Robots & Intelligent System (ICRIS). IEEE, 2019. http://dx.doi.org/10.1109/icris.2019.00136.

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