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Maize, sorghum, and pearl millet have highly contrasting species strategies to adapt to water stress and climate change-like conditions

Choudhary S, Guha A, Kholová J, Anand P, Messina CD, Cooper M and Vadez V (2019)

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Data Pre-processing for Agricultural Simulations

Jarolímek J, Pavlík J, Kholová J and Ronanki S (2019)

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Functional dissection of the chickpea (Cicer arietinum L.) Stay-green phenotype associated with molecular variation at an ortholog of Mendel’s I gene for cotyledon color: Implications for crop production and carotenoid biofortification

Sivasakthi K, Marques E, Kalungwana N, Carrasquilla-Garcia N, Chang PL, Bergmann EM, Bueno E, Cordeiro M, Sani SGA, Udupa SM, Rather IA, Rouf Mir R, Vadez V, Vandemark GJ, Gaur PM, Cook DR, Boesch C, von Wettberg EJ, Kholová J and Penmetsa RV (2019)

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Vision based automated point- cloud processing pipeline for high throughout phenotyping

Sadashivan S, Bhattacherjee SS, Gattu P, Pachamuthu R, Kholová and Choudhary S (2020)

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Pearl millet (Pennisetum glaucum) contrasting for the transpiration response to vapour pressure deficit also differ in their dependence on the symplastic and apoplastic water transport pathways

Murugesan TharanyaA,B, Kaliamoorthy SivasakthiA,B, Gloria BarzanaA, Jana KholováA, Thiyagarajan Thirunalasundari B and Vincent VadezA,C,D

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Quantitative trait loci (QTLs) for water use and crop production traits co-locate with major QTL for tolerance to water deficit in a fine-mapping population of pearl millet (Pennisetum glaucum L. R.Br.)

Murugesan Tharanya, Jana Kholova, Kaliamoorthy Sivasakthi, Deepmala Seghal, et al.

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Molecular cloning and expression analysis of Aquaporin genes in pearl millet [Pennisetum glaucum (L) R. Br.] genotypes contrasting in their transpiration response to high vapour pressure deficits

Palakolanu Sudhakar Reddya, Murugesan Tharanyaa,b, Kaliamoorthy Sivasakthia,b, Mallayee Srikantha, C. Tom Hasha, Jana Kholovaa, Kiran K. Sharmaa, Vincent Vadeza,⁎

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Chickpea Genotypes Contrasting for Vigor and Canopy Conductance Also Differ in Their Dependence on Different Water Transport Pathways

Kaliamoorthy Sivasakthi 1, 2, Murugesan Tharanya1, 2, Jana Kholová1, Ruth Wangari Muriuki 3, Thiyagarajan Thirunalasundari 2 and Vincent Vadez 1*

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Plant vigour QTLs co-map with an earlier reported QTL hotspot for drought tolerance while water saving QTLs map in other regions of the chickpea genome

Kaliamoorthy Sivasakthi1,2, Mahendar Thudi1, Murugesan Tharanya1,2, Sandip M. Kale1, Jana Kholová1, Mahamat Hissene Halime1, Deepa Jaganathan1, Rekha Baddam1, Thiyagarajan Thirunalasundari2, Pooran M. Gaur1, Rajeev K. Varshney1 and Vincent Vadez1,3

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Genotypes Contrasting for Terminal Drought Tolerance also Contrast for the Developmental Pattern of Water Use in Varying Environmental Conditions

Jana Kholova, Paul Zindy , C. Tom Hash, Marie Kocova , Vincent Vadez

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Constitutive water-conserving mechanisms are correlated with the terminal drought tolerance of pearl millet

Jana Kholova, C. Tom Hash , Aparna Kakkera , Marie Kocova and Vincent Vadez

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Component traits of plant water use are modulated by vapour pressure deficit in pearl millet (Pennisetum glaucum (L.) R.Br.)

Jana Kholová, Paul Zindy, Srikanth Malayee, Rekha Baddam, Tharanya Murugesan, Sivasakthi Kaliamoorthy, C. Tom Hash, Olga Votrubová, Aleš Soukup, Marie Kocová, Mareme Niang and Vincent Vadez

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Water extraction under terminal drought explains the genotypic differences in yield, not the anti-oxidant changes in leaves of pearl millet

Jana Kholova and Vincent Vadez

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Modelling the effect of plant water use traits on yield and stay-green expression in sorghum

Jana Kholova, Tharanya Murugesan, Sivasakthi Kaliamoorthy, Srikanth Malayee, Rekha Baddam, Graeme L. Hammer, Greg McLean, Santosh Deshpande, C. Thomas Hash, Peter Q. Craufurd A and Vincent Vadez

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Drought stress characterization of post-rainy season (rabi) sorghum in India

Jana Kholova, Greg McLeanb, Vincent Vadez, Peter Craufurda, Graeme L. Hammer

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Does a terminal drought tolerance QTL contribute to differences in ROS scavenging enzymes and photosynthetic pigments in pearl millet exposed to drought?

Jana Kholova, C. Tom Hasha, Marie Kocova, Vincent Vadez

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Does a terminal drought tolerance QTL contribute to differences in ROS scavenging enzymes and photosynthetic pigments in pearl millet exposed to drought?

Jana Kholova,b, C. Tom Hasha, Marie Kocova b, Vincent Vadez

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Terminal drought-tolerant pearl millet [Pennisetum glaucum (L.) R. Br.] have high leaf ABA and limit transpiration at high vapour pressure deficit

Jana Kholova, C. T. Hash , P. Lava Kumar, Rattan S. Yadav , Marie Kocova and Vincent Vadez

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Root aquaporins contribute to whole plant water fluxes under drought stress in rice (Oryza sativa L.)

Alexandre Grondin, Ramil Mauleon1 , Vincent Vadez and Amelia Henry

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Although drought intensity increases aflatoxin contamination, drought tolerance does not lead to less aflatoxin contamination

F. Hamidou, A. Rathore , F. Waliyar, V. Vadez

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Drought stress characterization of post-rainy season (rabi) sorghum in India

Jana Kholova, Greg McLeanb, Vincent Vadez, Peter Craufurda, Graeme L. Hammer

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Terminal drought-tolerant pearl millet [Pennisetum glaucum (L.) R. Br.] have high leaf ABA and limit transpiration at high vapour pressure deficit

Jana Kholova, C. T. Hash, P. Lava Kumar, Rattan S. Yadav, Marie Kocova and Vincent Vadez,

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Water saving traits co-map with a major terminal drought tolerance quantitative trait locus in pearl millet [Pennisetum glaucum (L.) R. Br.]

Jana Kholova , T. Nepolean , C. Tom Hash , A. Supriya , V. Rajaram , S. Senthilvel Aparna Kakkera , Rattan Yadav , Vincent Vadez

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Root hydraulics: The forgotten side of roots in drought adaptation

Vincent Vadez

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Small temporal differences in water uptake among varieties of pearl millet (Pennisetum glaucum (L.) R. Br.) are critical for grain yield under terminal drought

Vincent Vadez & Jana Kholova & Rattan S. Yadav & Charles Tom Hash

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Water: the most important ‘molecular’ component of water stress tolerance research

Vincent Vadez, Jana Kholova, Mainassara Zaman-Allah, and Nouhoun Belko

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LeasyScan: a novel concept combining 3D imaging and lysimetry for high-throughput phenotyping of traits controlling plant water budget

Vincent Vadez, Jana Kholova, Gregoire Hummel, Uladzimir Zhokhavets, S.K. Gupta and C. Tom Hash

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Constitutive water-conserving mechanisms are correlated with the terminal drought tolerance of pearl millet [Pennisetum glaucum (L.) R. Br.]

Jana Kholova, C. Tom Hash, Aparna Kakkera, Marie Kocova and Vincent Vadez

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Transpiration efficiency: new insights into an old story

Vincent Vadez, Jana Kholova, Susan Medina, Aparna Kakkera and Hanna Anderberg

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A conservative pattern of water use, rather than deep or profuse rooting, is critical for the terminal drought tolerance of chickpea

Mainassara Zaman-Allah, David M. Jenkinson and Vincent Vadez

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Water saving traits co-map with a major terminal drought tolerance quantitative trait locus in pearl millet [Pennisetum glaucum (L.) R. Br.]

Jana Kholova, T. Nepolean, C. Tom Hash, A. Supriya, V. Rajaram, S. Senthilvel, Aparna Kakkera, Rattan Yadav, Vincent Vadez

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Two key genomic regions harbour QTLs for salinity tolerance in ICCV 2 × JG 11 derived chickpea (Cicer arietinum L.) recombinant inbred lines

Raju Pushpavalli, Laxmanan Krishnamurthy, Mahendar Thudi, Pooran M Gaur, Mandali V Rao,Kadambot HM Siddique, Timothy D Colmer, Neil C Turner, Rajeev K Varshney, and Vincent Vadez1

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