Articles citing this paper
Effect of high temperature on the reproductive development of chickpea genotypes under controlled environments
Viola Devasirvatham A B C D , Pooran M. Gaur B , Nalini Mallikarjuna B , Raju N. Tokachichu A , Richard M. Trethowan A and Daniel K. Y. Tan A C
+ Author Affiliations
- Author Affiliations
A Faculty of Agriculture and Environment, Plant Breeding Institute, University of Sydney, Cobbitty, NSW 2570, Australia.
B International Crops Research Institute for the Semiarid Tropics, Patancheru, Hyderabad, 502 324, AP, India.
C Suite 401, Biomedical Building, 1 Central Avenue, Australian Technology Park, Eveleigh, NSW 2015, Australia.
D Corresponding author. Email: viola.devasirvatham@sydney.edu.au
Functional Plant Biology 39(12) 1009-1018 https://doi.org/10.1071/FP12033
Submitted: 30 January 2012 Accepted: 14 August 2012 Published: 17 September 2012
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Interactive Effects of Elevated CO2, Drought, and Warming on Plants
Xu Zhenzhu,
Shimizu Hideyuki,
Yagasaki Yasumi,
Ito Shoko,
Zheng Yuanrun, Zhou Guangsheng
Journal of Plant Growth Regulation. 2013 32(4). p.692
Heat responsive proteome changes reveal molecular mechanisms underlying heat tolerance in chickpea
Parankusam Santisree,
Bhatnagar-Mathur Pooja, Sharma Kiran K.
Environmental and Experimental Botany. 2017 141 p.132
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JHA UDAY CHAND,
JHA RINTU,
SINGH NARENDRA PRATAP,
SHIL SANDIP, KOLE PARESH CHANDRA
The Indian Journal of Agricultural Sciences. 2018 88(2). p.260
MAGIC lines in chickpea: development and exploitation of genetic diversity
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Sajja Sobhan B.,
Mondal Biswajit,
Chand Uttam,
Thudi Mahendar,
Varshney Rajeev K., Gaur Pooran M.
Euphytica. 2021 217(7).
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Parihar Ashok K.,
Hazra Kali K.,
Dixit Girish P.,
Katiyar Pradip K.,
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Thakur Meenakshi,
Mitra Raktim,
Basu Sudipta, Anand Anjali
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Bains T.S.,
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Mondal Nupur,
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Awasthi Rashmi,
Gupta Kriti,
Gaur Pooran,
Siddique Kadambot H. M., Nayyar Harsh
Functional Plant Biology. 2013 40(12). p.1334
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Mallikarjuna Nalini,
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Gogoi Nirmali,
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Alghamdi Salem S.,
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Welti R., Prasad P.V.V.
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Shutt Jack D., Dicks Lynn V.
Ecology and Evolution. 2023 13(5).
Heat stress affects the cytoskeleton and the delivery of sucrose synthase in tobacco pollen tubes
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Planta. 2016 243(1). p.43
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Plant, Cell & Environment. 2018 41(5). p.993
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Irulappan Vadivelmurugan, Senthil-Kumar Muthappa
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Bhandari Kalpna,
Kumar Jitendra,
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Singh Sarvjeet,
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Journal of the Science of Food and Agriculture. 2018 98(13). p.5134
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Pezeshkpour P.,
Mirzaee A.,
Barzali M.,
Sharifi P., Safari Motlagh M. R.
Vavilov Journal of Genetics and Breeding. 2023 27(2). p.135
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Tiwari Neha,
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Siddique K. H. M.,
Dhankhar O. P.,
Prasad P. V. Vara,
Hanumantha Rao Bindumadhava,
Nair Ramakrishnan M., Nayyar Harsh
Indian Journal of Plant Physiology. 2018 23(4). p.697
The Chickpea Genome (2017)
Physiology Based Approaches for Breeding of Next-Generation Food Legumes
Shunmugam Arun S. K.,
Kannan Udhaya,
Jiang Yunfei,
Daba Ketema A., Gorim Linda Y.
Plants. 2018 7(3). p.72
Phenomics in Crop Plants: Trends, Options and Limitations (2015)
Comprehensive Transcriptome Profiling Uncovers Molecular Mechanisms and Potential Candidate Genes Associated with Heat Stress Response in Chickpea
Kudapa Himabindu,
Barmukh Rutwik,
Garg Vanika,
Chitikineni Annapurna,
Samineni Srinivasan,
Agarwal Gaurav, Varshney Rajeev K.
International Journal of Molecular Sciences. 2023 24(2). p.1369
Food Legumes and Rising Temperatures: Effects, Adaptive Functional Mechanisms Specific to Reproductive Growth Stage and Strategies to Improve Heat Tolerance
Sita Kumari,
Sehgal Akanksha,
HanumanthaRao Bindumadhava,
Nair Ramakrishnan M.,
Vara Prasad P. V.,
Kumar Shiv,
Gaur Pooran M.,
Farooq Muhammad,
Siddique Kadambot H. M.,
Varshney Rajeev K., Nayyar Harsh
Frontiers in Plant Science. 2017 8
Accelerated Plant Breeding, Volume 3 (2020)
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Basavaraj P. S., Rane Jagadish
Plant Physiology Reports. 2020 25(4). p.594
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Makonya Givemore M.,
Ogola John B.O.,
Muthama Muasya A.,
Crespo Olivier,
Maseko Sipho,
Valentine Alex J.,
Ottosen Carl-Otto,
Rosenqvist Eva, Chimphango Samson B.M.
Plant Physiology and Biochemistry. 2019 141 p.172
Accelerated Plant Breeding, Volume 3 (2020)
Chickpea seed mass influences agronomical performance
Villalobos-Olivera Ariel,
Campbell Roberto,
Martínez-Montero Marcos Edel,
Gómez Daviel,
Acosta Yanier,
Zevallos-Bravo Byron E.,
Hajari Elliosha, Lorenzo José Carlos
Vegetos. 2024
Nitric oxide mediated alleviation of abiotic challenges in plants
Praveen Afsana
Nitric Oxide. 2022 128 p.37
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Hernández Fernando,
Poverene Mónica, Presotto Alejandro
Euphytica. 2018 214(8).
Mitigation of Heat Stress in Solanum lycopersicum L. by ACC-deaminase and Exopolysaccharide Producing Bacillus cereus: Effects on Biochemical Profiling
Mukhtar Tehmeena,
Rehman Shafiq ur,
Smith Donald,
Sultan Tariq,
Seleiman Mahmoud F.,
Alsadon Abdullah A.,
Amna ,
Ali Shafaqat,
Chaudhary Hassan Javed,
Solieman Talaat H. I.,
Ibrahim Abdullah A., Saad Montasir A. O.
Sustainability. 2020 12(6). p.2159
High temperatures disturb ovule development in field pea (Pisum sativum)
Osorio Evelyn E.,
Davis Arthur R., Bueckert Rosalind A.
Botany. 2022 100(1). p.47
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Singh Dharmendra,
Singh Chandan Kumar,
Taunk Jyoti,
Jadon Vasudha,
Pal Madan, Gaikwad Kishor
Scientific Reports. 2019 9(1).
Developing Climate Resilient Grain and Forage Legumes (2022)
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Eker Tuba,
Sari Hatice,
Sari Duygu,
Canci Huseyin,
Arslan Mehmet,
Aydinoglu Bilal,
Ozay Hilal, Toker Cengiz
Agronomy. 2022 12(3). p.557
Multiple paternity, fertilization success, and male quality: Mating system variation in the eelgrass, Zostera marina
Sgambelluri Lauren R.,
Jarvis Jessie C., Kamel Stephanie J.
Ecology and Evolution. 2024 14(6).
Population structure and association mapping of traits related to reproductive development in field pea
Jiang Yunfei,
Diapari Marwan,
Bueckert Rosalind A.,
Tar’an Bunyamin, Warkentin Thomas D.
Euphytica. 2017 213(9).
Developing Climate-Resilient Chickpea Involving Physiological and Molecular Approaches With a Focus on Temperature and Drought Stresses
Rani Anju,
Devi Poonam,
Jha Uday Chand,
Sharma Kamal Dev,
Siddique Kadambot H. M., Nayyar Harsh
Frontiers in Plant Science. 2020 10
Physiological and molecular characterisation for high temperature stress in Lens culinaris
Kumar Jitendra,
Basu Partha Sarathi,
Gupta Sunanda,
Dubey Sonali,
Sen Gupta Debjyoti, Singh Narendra Pratap
Functional Plant Biology. 2018 45(4). p.474
Unveiling of suppressed genes in interspecific and backcross populations derived from mutants of Cicer species
Ceylan F. Oncu,
Adak Alper,
Sari Duygu,
Sari Hatice, Toker Cengiz
Crop and Pasture Science. 2019 70(3). p.254
Hydrogen Peroxide and GA3 Levels Regulate the High Night Temperature Response in Pistils of Wheat (Triticum aestivum L.)
Mukherjee Purbali,
Suriyakumar Pavithra,
Vanchinathan S.,
Krishnan Veda,
Lal Milan Kumar,
Jha Prakash Kumar,
Chinnusamy Viswanathan,
Anand Anjali, Prasad P. V. Vara
Antioxidants. 2023 12(2). p.342
Translating Physiological Tools to Augment Crop Breeding (2023)
Securing reproductive function in mungbean grown under high temperature environment with exogenous application of proline
Priya Manu,
Sharma Lomeshwar,
Singh Inderjit,
Bains T.S.,
Siddique Kadambot H.M.,
H Bindumadhava,
Nair Ramkrishnan M., Nayyar Harsh
Plant Physiology and Biochemistry. 2019 140 p.136
Possible involvement of xanthophyll cycle pigments in heat tolerance of chickpea (Cicer arietinum L.)
Kumar Pramod,
Yadav Sanjay, Singh Madan Pal
Physiology and Molecular Biology of Plants. 2020 26(9). p.1773
Plant Breeding - Current and Future Views (2021)
Developing Climate Resilient Grain and Forage Legumes (2022)
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Boote K.J.,
Prasad Vara,
Allen L.H.,
Singh P., Jones J.W.
European Journal of Agronomy. 2018 100 p.99
Reproductive development response to high daytime temperature in field pea
Jiang Yunfei,
Davis Arthur R.,
Vujanovic Vladimir, Bueckert Rosalind A.
Journal of Agronomy and Crop Science. 2019 205(3). p.324
High confidence QTLs and key genes identified using Meta-QTL analysis for enhancing heat tolerance in chickpea (Cicer arietinum L.)
Kumar Raj,
Sharma Vinay Kumar,
Rangari Sagar Krushnaji,
Jha Uday Chand,
Sahu Aakash,
Paul Pronob J.,
Gupta Shreshth,
Gangurde Sunil S.,
Kudapa Himabindu,
Mir Reyazul Rouf,
Gaur Pooran M.,
Varshney Rajeev K.,
Elango Dinakaran, Thudi Mahendar
Frontiers in Plant Science. 2023 14
Individual and combined effects of transient drought and heat stress on carbon assimilation and seed filling in chickpea
Awasthi Rashmi,
Kaushal Neeru,
Vadez Vincent,
Turner Neil C.,
Berger Jens,
Siddique Kadambot H. M., Nayyar Harsh
Functional Plant Biology. 2014 41(11). p.1148
The Adaptation and Tolerance of Major Cereals and Legumes to Important Abiotic Stresses
Rane Jagadish,
Singh Ajay Kumar,
Kumar Mahesh,
Boraiah Karnar M.,
Meena Kamlesh K.,
Pradhan Aliza, Prasad P. V. Vara
International Journal of Molecular Sciences. 2021 22(23). p.12970
Hormonal regulation of reproductive growth under normal and heat-stress conditions in legume and other model crop species
Ozga Jocelyn A.,
Kaur Harleen,
Savada Raghavendra P., Reinecke Dennis M.
Journal of Experimental Botany. 2016 p.erw464
Nitric Oxide (NO) in Plant Heat Stress Tolerance: Current Knowledge and Perspectives
Parankusam Santisree,
Adimulam Srivani S.,
Bhatnagar-Mathur Pooja, Sharma Kiran K.
Frontiers in Plant Science. 2017 8
Impact of Sowing Time on Chickpea (Cicer arietinum L.) Biomass Accumulation and Yield
Richards Mark F.,
Maphosa Lancelot, Preston Aaron L.
Agronomy. 2022 12(1). p.160
Integrated “omics” approaches to sustain global productivity of major grain legumes under heat stress
Jha Uday Chand,
Bohra Abhishek,
Parida Swarup Kumar,
Jha Rintu, Varshney R.
Plant Breeding. 2017 136(4). p.437
Climate Change and Plant Abiotic Stress Tolerance (2013)
Performance of Winter-Sown Chickpea Breeding Lines with Contrasting Levels of Resistance to Ascochyta Blight
Rubiales Diego,
Moral Ana, Flores Fernando
Agronomy. 2022 12(9). p.2194
Heat stress in crop plants: its nature, impacts and integrated breeding strategies to improve heat tolerance
Jha Uday Chand,
Bohra Abhishek,
Singh Narendra Pratap, Tuberosa R.
Plant Breeding. 2014 133(6). p.679
Bioinformatics and gene expression analysis of the legume F-box/WD40 proteins in NaCl and high temperature stress
Çelik Haluk,
Aravena Andres, Turgut Kara Neslihan
Genetic Resources and Crop Evolution. 2023 70(8). p.2637
Genetic Enhancement in Major Food Legumes (2021)
Genotypic Variability in Response to Heat Stress and Post-Stress Compensatory Growth in Mungbean Plants (Vigna radiata [L.] Wilczek)
Singh Vijaya, Collins Marisa
Crops. 2024 4(3). p.270
Heat Stress at Reproductive Stage Disrupts Leaf Carbohydrate Metabolism, Impairs Reproductive Function, and Severely Reduces Seed Yield in Lentil
Bhandari Kalpna,
Siddique Kadambot H. M.,
Turner Neil C.,
Kaur Jagmeet,
Singh Sarvjeet,
Agrawal Shiv Kumar, Nayyar Harsh
Journal of Crop Improvement. 2016 30(2). p.118
Management options for rainfed chickpea ( Cicer arietinum L.) in northeast Ethiopia under climate change condition
Mohammed Adem,
Tana Tamado,
Singh Piara,
Korecha Diriba, Molla Adamu
Climate Risk Management. 2017 16 p.222
Methane emissions from reproductive organs of pea plants exposed to multiple abiotic factors
Abdulmajeed Awatif M., Qaderi Mirwais M.
Theoretical and Experimental Plant Physiology. 2020 32(1). p.79
Heat stress response mechanisms in pollen development
Chaturvedi Palak,
Wiese Anna J.,
Ghatak Arindam,
Záveská Drábková Lenka,
Weckwerth Wolfram, Honys David
New Phytologist. 2021 231(2). p.571
Formation of Sunflower Seeds via Pollination Methodology Comparison Revealed by Self Incompatibility
Rahmi Ardi Noer,
Saptadi Darmawan,
Adiredjo Afifuddin Latif,
Thufailla Najla, . Umar
Asian Journal of Plant Sciences. 2021 20(4). p.631
Adaptation of common bean lines to high temperature conditions: genotypic differences in phenological and agronomic performance
Suárez Juan Carlos,
Polanía José A.,
Contreras Amara T.,
Rodríguez Leonardo,
Machado Leidy,
Ordoñez Claudia,
Beebe Steve, Rao Idupulapati M.
Euphytica. 2020 216(2).
Broadening the genetic base of cultivated chickpea following introgression of wild Cicer species-progress, constraints and prospects
Singh Mohar,
Malhotra Nikhil, Singh Kuldeep
Genetic Resources and Crop Evolution. 2021 68(6). p.2181
Heat and Drought Stress Impact on Phenology, Grain Yield, and Nutritional Quality of Lentil (Lens culinaris Medikus)
Choukri Hasnae,
Hejjaoui Kamal,
El-Baouchi Adil,
El haddad Noureddine,
Smouni Abdelaziz,
Maalouf Fouad,
Thavarajah Dil, Kumar Shiv
Frontiers in Nutrition. 2020 7
The Beans and the Peas (2021)
Systems Modeling (2020)
Transcriptome analysis of chickpea during heat stress unveils the signatures of long intergenic non-coding RNAs (lincRNAs) and mRNAs in the heat-QTL region
Bhogireddy Sailaja,
Kudapa Himabindu,
Bajaj Prasad,
Garg Vanika,
Chitikineni Annapurna,
Nayak Sourav, Varshney Rajeev K.
Crop Design. 2023 2(1). p.100026
Nitric oxide secures reproductive efficiency in heat-stressed lentil (Lens culinaris Medik.) plants by enhancing the photosynthetic ability to improve yield traits
Sita Kumari,
Sehgal Akanksha,
Bhardwaj Anjali,
Bhandari Kalpna,
Kumar Shiv,
Prasad P. Vara,
Jha Uday,
Siddique Kadambot H. M., Nayyar Harsh
Physiology and Molecular Biology of Plants. 2021 27(11). p.2549
Heat Stress Effects on Legumes: Challenges, Management Strategies and Future Insights
Sher Alam,
Noor Mehmood Ali,
Li Hong Xing,
Nasir Bukhtawer,
Manzoor Muhammad Aamir,
Hussain Saddam,
Zhang Jiwang,
Riaz Muhammad Waheed, Hussain Shabbir
Plant Stress. 2024 p.100537
Adequate zinc nutrition improves the tolerance against drought and heat stresses in chickpea
Ullah Aman,
Romdhane Leila,
Rehman Abdul, Farooq Muhammad
Plant Physiology and Biochemistry. 2019 143 p.11
Effect of a Heat Wave on Lentil Grown under Free‐Air CO2 Enrichment (FACE) in a Semi‐Arid Environment
Bourgault M.,
Löw M.,
Tausz‐Posch S.,
Nuttall J. G.,
Delahunty A. J.,
Brand J.,
Panozzo J. F.,
McDonald L.,
O'Leary G. J.,
Armstrong R. D.,
Fitzgerald G. J., Tausz M.
Crop Science. 2018 58(2). p.803
Identification of stable heat tolerance QTLs using inter-specific recombinant inbred line population derived from GPF 2 and ILWC 292
Kushwah Ashutosh,
Bhatia Dharminder,
Singh Inderjit,
Thudi Mahendar,
Singh Gurpreet,
Bindra Shayla,
Vij Suruchi,
Gill B. S.,
Bharadwaj Chellapilla,
Singh Sarvjeet,
Varshney Rajeev K., Parida Swarup Kumar
PLOS ONE. 2021 16(8). p.e0254957
Seed set, pollen morphology and pollen surface composition response to heat stress in field pea
Jiang Yunfei,
Lahlali Rachid,
Karunakaran Chithra,
Kumar Saroj,
Davis Arthur R., Bueckert Rosalind A.
Plant, Cell & Environment. 2015 38(11). p.2387
Abiotic Stress Responses in Legumes: Strategies Used to Cope with Environmental Challenges
Araújo Susana S.,
Beebe Steve,
Crespi Martin,
Delbreil Bruno,
González Esther M.,
Gruber Veronique,
Lejeune-Henaut Isabelle,
Link Wolfgang,
Monteros Maria J.,
Prats Elena,
Rao Idupulapati,
Vadez Vincent, Patto Maria C. Vaz
Critical Reviews in Plant Sciences. 2015 34(1-3). p.237
Climate change impacts and potential benefits of drought and heat tolerance in chickpea in South Asia and East Africa
Singh Piara,
Nedumaran S.,
Boote K.J.,
Gaur P.M.,
Srinivas K., Bantilan M.C.S.
European Journal of Agronomy. 2014 52 p.123
Effects of individual and combined heat and drought stress during seed filling on the oxidative metabolism and yield of chickpea (Cicer arietinum) genotypes differing in heat and drought tolerance
Awasthi Rashmi,
Gaur Pooran,
Turner Neil C.,
Vadez Vincent,
Siddique Kadambot H. M., Nayyar Harsh
Crop and Pasture Science. 2017 68(9). p.823
Thermal Stress Impacts on Reproductive Development and Grain Yield in Grain Legumes
Gogoi Nirmali,
Farooq Muhammad,
Barthakur Sharmistha,
Baroowa Bhaswatee,
Paul Sreyashi,
Bharadwaj Nandita, Ramanjulu Sunkar
Journal of Plant Biology. 2018 61(5). p.265
Abiotic and Biotic Stress in Plants (2019)
High temperature stress and its effect on pollen development and morphological components of harvest index in the C3 model grass Brachypodium distachyon
Harsant Jeffrey,
Pavlovic Lazar,
Chiu Greta,
Sultmanis Stefanie, Sage Tammy L.
Journal of Experimental Botany. 2013 64(10). p.2971
Abiotic stresses, constraints and improvement strategies in chickpea
Jha Uday C.,
Chaturvedi Sushil K.,
Bohra Abhishek,
Basu Partha S.,
Khan Muhammad S.,
Barh Debmalya, Varshney R.
Plant Breeding. 2014 133(2). p.163
Exploring Chickpea Germplasm Diversity for Broadening the Genetic Base Utilizing Genomic Resourses
Singh Rajesh Kumar,
Singh Charul,
Ambika ,
Chandana B. S.,
Mahto Rohit K.,
Patial Ranjana,
Gupta Astha,
Gahlaut Vijay,
Gayacharan ,
Hamwieh Aladdin,
Upadhyaya H. D., Kumar Rajendra
Frontiers in Genetics. 2022 13
Integrated breeding approaches for improving drought and heat adaptation in chickpea (Cicer arietinum L.)
Gaur Pooran M.,
Samineni Srinivasan,
Thudi Mahendar,
Tripathi Shailesh,
Sajja Sobhan B.,
Jayalakshmi Veera,
Mannur Durdundappa M.,
Vijayakumar Adiveppa G.,
Ganga Rao Nadigatla V. P. R.,
Ojiewo Chris,
Fikre Asnake,
Kimurto Paul,
Kileo Robert O.,
Girma Nigusie,
Chaturvedi Sushil K.,
Varshney Rajeev K.,
Dixit Girish P., Link Wolfgang
Plant Breeding. 2019 138(4). p.389
The Plant Family Fabaceae (2020)
Heat Stress in Legume Seed Setting: Effects, Causes, and Future Prospects
Liu Yonghua,
Li Jiajia,
Zhu Yulei,
Jones Ashley,
Rose Ray J., Song Youhong
Frontiers in Plant Science. 2019 10
Dry root rot disease: Current status and future implications for chickpea production
Mirchandani Rishabh,
Irulappan Vadivelmurugan,
Chilakala Aswin Reddy, Senthil-Kumar Muthappa
Proceedings of the National Academy of Sciences, India Section B: Biological Sciences. 2023 93(4). p.791
Broadening the Genetic Base of Grain Legumes (2014)
Heat and Drought Stresses in Crops and Approaches for Their Mitigation
Lamaoui Mouna,
Jemo Martin,
Datla Raju, Bekkaoui Faouzi
Frontiers in Chemistry. 2018 6
Genomic Designing for Abiotic Stress Resistant Pulse Crops (2022)
Unleashing the Potential of Biostimulants in Stimulating Pollen Germination and Tube Growth
Gupta Shubhpriya,
Novák Ondřej,
Kulkarni Manoj G.,
Doležalova Ivana,
Van Staden Johannes, Doležal Karel
Journal of Plant Growth Regulation. 2024
Impact of High Temperature and Drought Stresses on Chickpea Production
Devasirvatham Viola, Tan Daniel K. Y.
Agronomy. 2018 8(8). p.145
Chemical composition and reproductive functionality of contrasting faba bean genotypes in response to water deficit
Muktadir Md Abdul,
Adhikari Kedar N.,
Ahmad Nabil, Merchant Andrew
Physiologia Plantarum. 2021 172(2). p.540
Temperature and water stress affect plant–pollinator interactions in Borago officinalis (Boraginaceae)
Descamps Charlotte,
Quinet Muriel,
Baijot Aurélie, Jacquemart Anne‐Laure
Ecology and Evolution. 2018 8(6). p.3443
High-Temperature Conditions Promote Soybean Flowering through the Transcriptional Reprograming of Flowering Genes in the Photoperiod Pathway
No Dong Hyeon,
Baek Dongwon,
Lee Su Hyeon,
Cheong Mi Sun,
Chun Hyun Jin,
Park Mi Suk,
Cho Hyun Min,
Jin Byung Jun,
Lim Lack Hyeon,
Lee Yong Bok,
Shim Sang In,
Chung Jong-Il, Kim Min Chul
International Journal of Molecular Sciences. 2021 22(3). p.1314
Physiological and biochemical responses of garden pea genotypes under reproductive stage heat stress
Janani R.,
Sharma Brij Bihari,
Dhar Shri,
Arora Ajay,
Choudhary Harshawardhan,
Yadav Ramesh Kumar,
Singh Dharmendra,
Singh Dinesh,
Solanke Amolkumar U., Kumar Prakash
Genetic Resources and Crop Evolution. 2024 71(3). p.1177
Nature of gene action and combining ability analysis of yield and yield-related traits in chickpea (Cicer arietinum) under heat stress
JHA UDAY CHAND,
KOLE PARESH CHANDRA, SINGH NARENDRA PRATAP
The Indian Journal of Agricultural Sciences. 2019 89(3).
Emerging Technologies and Management of Crop Stress Tolerance (2014)
Advances in Plant Defense Mechanisms (2022)
Identifying best crop management practices for chickpea (Cicer arietinum L.) in Northeastern Ethiopia under climate change condition
Mohammed Adem,
Tana Tamado,
Singh Piara,
Molla Adamu, Seid Ali
Agricultural Water Management. 2017 194 p.68
Fundamentals of Field Crop Breeding (2022)
Nitric Oxide and Abscisic Acid Mediate Heat Stress Tolerance through Regulation of Osmolytes and Antioxidants to Protect Photosynthesis and Growth in Wheat Plants
Iqbal Noushina,
Sehar Zebus,
Fatma Mehar,
Umar Shahid,
Sofo Adriano, Khan Nafees A.
Antioxidants. 2022 11(2). p.372
Genomic-Mediated Breeding Strategies for Global Warming in Chickpeas (Cicer arietinum L.)
Jain Shailesh Kumar,
Wettberg Eric J. von,
Punia Sumer Singh,
Parihar Ashok Kumar,
Lamichaney Amrit,
Kumar Jitendra,
Gupta Debjyoti Sen,
Ahmad Sarfraz,
Pant Naveen Chandra,
Dixit Girish Prasad,
Sari Hatice,
Sari Duygu,
Ma’ruf Amar,
Toker Pelin, Toker Cengiz
Agriculture. 2023 13(9). p.1721
