[1]
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Salinity responses in 24 guar genotypes are linked to multigenic regulation explaining the complexity of tolerance mechanisms
in planta
Crop Science,
2023
DOI:10.1002/csc2.20872
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[2]
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Adapting the CROPGRO model to simulate growth and yield of guar, Cyamopsis tetragonoloba L, an industrial legume crop
Industrial Crops and Products,
2023
DOI:10.1016/j.indcrop.2023.116596
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[3]
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Intensifying dryland wheat systems by integrating guar increased production and profitability
Industrial Crops and Products,
2023
DOI:10.1016/j.indcrop.2023.116608
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[4]
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Growth and Performance of Guar (Cyamopsis tetragonoloba (L.) Taub.) Genotypes under Various Irrigation Regimes with and without Biogenic Silica Amendment in Arid Southwest US
Plants,
2023
DOI:10.3390/plants12132486
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[5]
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Assessment of guar gum production cost and environmental impact in the US Southwest
Industrial Crops and Products,
2023
DOI:10.1016/j.indcrop.2023.117116
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[6]
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Photosynthesis in guar: Recovery from water stress, basic parameter estimates, and intrinsic variation among germplasm
Journal of Crop Improvement,
2023
DOI:10.1080/15427528.2022.2121348
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[7]
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Salinity responses in 24 guar genotypes are linked to multigenic regulation explaining the complexity of tolerance mechanisms in planta
Crop Science,
2023
DOI:10.1002/csc2.20872
|
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[8]
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Salinity responses in 24 guar genotypes are linked to multigenic regulation explaining the complexity of tolerance mechanisms
in planta
Crop Science,
2023
DOI:10.1002/csc2.20872
|
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[9]
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Assessment of guar gum production cost and environmental impact in the US Southwest
Industrial Crops and Products,
2023
DOI:10.1016/j.indcrop.2023.117116
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[10]
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Adapting the CROPGRO model to simulate growth and yield of guar, Cyamopsis tetragonoloba L, an industrial legume crop
Industrial Crops and Products,
2023
DOI:10.1016/j.indcrop.2023.116596
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[11]
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Intensifying dryland wheat systems by integrating guar increased production and profitability
Industrial Crops and Products,
2023
DOI:10.1016/j.indcrop.2023.116608
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[12]
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Does the drought tolerance of guar [
Cyamopsis tetragonoloba
(L.) Taub.] extend belowground to root nodules?
Journal of Agronomy and Crop Science,
2022
DOI:10.1111/jac.12494
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[13]
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Photosynthesis in guar: Recovery from water stress, basic parameter estimates, and intrinsic variation among germplasm
Journal of Crop Improvement,
2022
DOI:10.1080/15427528.2022.2121348
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[14]
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Exploring phenotypic variation and associations in root nodulation, morphological, and growth character traits among 50 guar genotypes
Industrial Crops and Products,
2021
DOI:10.1016/j.indcrop.2021.113831
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[15]
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Study of correlation, path coefficient and linkage of flower colour and hairiness with yield controlling quantitative traits in segregating population of cluster bean
Current Plant Biology,
2021
DOI:10.1016/j.cpb.2021.100202
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[16]
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Contrasting Responses of Guar Genotypes Shed Light on Multiple Component Traits of Salinity Tolerance Mechanisms
Agronomy,
2021
DOI:10.3390/agronomy11061068
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[17]
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Exploring phenotypic variation and associations in root nodulation, morphological, and growth character traits among 50 guar genotypes
Industrial Crops and Products,
2021
DOI:10.1016/j.indcrop.2021.113831
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[18]
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Growth, yield and quality of two guar (Cyamopsis tetragonoloba L.) ecotypes affected by sowing date and planting density in a semi-arid area
PLOS ONE,
2021
DOI:10.1371/journal.pone.0257692
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[19]
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Deficit Irrigation on Guar Genotypes (Cyamopsis tetragonoloba (L.) Taub.): Effects on Seed Yield and Water Use Efficiency
Agronomy,
2020
DOI:10.3390/agronomy10060789
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[20]
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Improvement of physiological indices and biological yield by intercropping of Kochia (Kochia scoparia), Sesbania (Sesbania aculeata) and Guar (Cyamopsis tetragonoliba) under the salinity stress of irrigation water
Physiology and Molecular Biology of Plants,
2020
DOI:10.1007/s12298-020-00833-y
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[21]
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Guar responses to temperature: Estimation of cardinal temperatures and photosynthetic parameters
Industrial Crops and Products,
2020
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[22]
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Integrated effect of planting dates and irrigation regimes on morpho-physiological response, forage yield and quality, and water use efficiency of clitoria (Clitoria ternatea L.) in arid region
Archives of Agronomy and Soil Science,
2019
DOI:10.1080/03650340.2019.1605165
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[23]
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Comparison of morphological and phytochemical characteristics in guar (Cyamopsis tetragonoloba L.) landraces and cultivars under different sowing dates in an arid environment
Industrial Crops and Products,
2019
DOI:10.1016/j.indcrop.2019.111606
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[24]
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Guar responses to temperature: Estimation of cardinal temperatures and photosynthetic parameters
Industrial Crops and Products,
2019
DOI:10.1016/j.indcrop.2019.111940
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[25]
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Forage Potential of Summer Annual Grain Legumes in the Southern Great Plains
Agronomy Journal,
2018
DOI:10.2134/agronj2017.12.0726
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[26]
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Genome-wide discovery of tissue-specific miRNAs in clusterbean (Cyamopsis tetragonoloba
) indicates their association with galactomannan biosynthesis
Plant Biotechnology Journal,
2018
DOI:10.1111/pbi.12866
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[27]
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Forage Potential of Summer Annual Grain Legumes in the Southern Great Plains
Agronomy Journal,
2018
DOI:10.2134/agronj2017.12.0726
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[28]
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Genome‐wide discovery of tissue‐specific miRNAs in clusterbean (Cyamopsis tetragonoloba) indicates their association with galactomannan biosynthesis
Plant Biotechnology Journal,
2018
DOI:10.1111/pbi.12866
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[29]
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Guar Stand Establishment, Physiology, and Yield Responses to Planting Date in Southern New Mexico
Agronomy Journal,
2016
DOI:10.2134/agronj2016.04.0206
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[30]
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Guar Stand Establishment, Physiology, and Yield Responses to Planting Date in Southern New Mexico
Agronomy Journal,
2016
DOI:10.2134/agronj2016.04.0206
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