Title: Chickpea roots System
Title: Chickpea roots System
Word limit: 800 and no maximum
Instruction
Write on Chickpea (Cicer arietinum) root systems: No need to write any introduction about chickpea, just start with Chickpea roots and the subheadings below.
Structure and functionDescribe the biology/structure/function of the root system, tap root, secondary root growth etc.
Genotype, environment and management effects on root systems-Outline what is known about differences among chickpea (C.arietinum ) genotypes in root systems?
-Need to have separate paragraphs for non-field (glasshouse, controlled environment etc) and field studies. ADDIN EN.CITE <EndNote><Cite><Author>Brown</Author><Year>1989</Year><RecNum>336</RecNum><DisplayText>(Brown et al. 1989)</DisplayText><record><rec-number>336</rec-number><foreign-keys><key app="EN" db-id="dtf2exdvi9zffjetve1vt9wlwwsxdr0xzdtr" timestamp="1533790773">336</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Brown, S. C.</author><author>Gregory, P. J.</author><author>Cooper, P. J. M.</author><author>Keatinge, J. D. H.</author></authors></contributors><titles><title><style face="normal" font="default" size="100%">Root and shoot growth and water use of chickpea (</style><style face="italic" font="default" size="100%">Cicer arietinum</style><style face="normal" font="default" size="100%">) grown in dryland conditions: effects of sowing date and genotype</style></title><secondary-title>The Journal of Agricultural Science</secondary-title></titles><periodical><full-title>The Journal of Agricultural Science</full-title></periodical><pages>41-49</pages><volume>113</volume><number>1</number><edition>03/01</edition><dates><year>1989</year></dates><publisher>Cambridge University Press</publisher><isbn>0021-8596</isbn><urls><related-urls><url>https://www.cambridge.org/core/article/root-and-shoot-growth-and-water-use-of-chickpea-cicer-arietinum-grown-in-dryland-conditions-effects-of-sowing-date-and-genotype/E7CBC993348D516F81A0BA6D1B8C163D</url></related-urls></urls><electronic-resource-num>10.1017/S0021859600084598</electronic-resource-num><remote-database-name>Cambridge Core</remote-database-name><remote-database-provider>Cambridge University Press</remote-database-provider></record></Cite></EndNote>(Brown et al. 1989)
-Could include a table that summarises key findings for which root traits differ?
-Outline what is known about environmental effects on chickpea (C.arietinum only) root systems? Eg. Soil type, rainfall, acidity, soil compaction, waterlogging (dont cover Phytophthora here) etc. Need to have separate paragraphs for non-field (glasshouse, controlled environment etc) and field studies. May need to defines types of drought eg. terminal drought if comparing different types of drought etc
Some papers to help are: PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5Ecm9uPC9BdXRob3I+PFllYXI+MjAyMjwvWWVhcj48UmVj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ADDIN EN.CITE PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5Ecm9uPC9BdXRob3I+PFllYXI+MjAyMjwvWWVhcj48UmVj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ADDIN EN.CITE.DATA (Dron et al. 2021; Dron et al. 2022b). See Indian studies cited by Varshney ADDIN EN.CITE <EndNote><Cite><Author>Varshney</Author><Year>2013</Year><RecNum>386</RecNum><DisplayText>(Varshney et al. 2013)</DisplayText><record><rec-number>386</rec-number><foreign-keys><key app="EN" db-id="dtf2exdvi9zffjetve1vt9wlwwsxdr0xzdtr" timestamp="1553486765">386</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Varshney, Rajeev K.</author><author>Gaur, Pooran M.</author><author>Chamarthi, Siva K.</author><author>Krishnamurthy, L.</author><author>Tripathi, Shailesh</author><author>Kashiwagi, Junichi</author><author>Samineni, Srinivasan</author><author>Singh, Vikas K.</author><author>Thudi, Mahendar</author><author>Jaganathan, Deepa</author></authors></contributors><titles><title>Fast-Track Introgression of QTL-hotspot for Root Traits and Other Drought Tolerance Traits in JG 11, an Elite and Leading Variety of Chickpea</title><secondary-title>The Plant Genome</secondary-title></titles><periodical><full-title>The Plant Genome</full-title></periodical><volume>6</volume><number>3</number><dates><year>2013</year></dates><urls><related-urls><url>http://dx.doi.org/10.3835/plantgenome2013.07.0022</url></related-urls></urls><electronic-resource-num>10.3835/plantgenome2013.07.0022</electronic-resource-num><language>English</language></record></Cite></EndNote>(Varshney et al. 2013)and those that cite their work where different root traits are identified for particular drought types etc PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5LYXNoaXdhZ2k8L0F1dGhvcj48WWVhcj4yMDA2PC9ZZWFy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ADDIN EN.CITE PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5LYXNoaXdhZ2k8L0F1dGhvcj48WWVhcj4yMDA2PC9ZZWFy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ADDIN EN.CITE.DATA (Serraj et al. 2004; Kashiwagi et al. 2005; Kashiwagi et al. 2006; Gaur et al. 2008; Palta et al. 2010; Kumar et al. 2012; Lalitha et al. 2015; Purushothaman et al. 2017b, a; Ramamoorthy et al. 2017) Hopefully there are some more recent studies now citing this older work. ADDIN EN.CITE <EndNote><Cite><Author>Palta</Author><Year>2010</Year><RecNum>199</RecNum><DisplayText>(Palta et al. 2010)</DisplayText><record><rec-number>199</rec-number><foreign-keys><key app="EN" db-id="dtf2exdvi9zffjetve1vt9wlwwsxdr0xzdtr" timestamp="1468714492">199</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Palta, J. A.</author><author>Ganjeali, A.</author><author>Turner, N. C.</author><author>Siddique, K. H. M.</author></authors></contributors><titles><title>Effects of transient subsurface waterlogging on root growth, plant biomass and yield of chickpea</title><secondary-title>Agricultural Water Management</secondary-title></titles><pages>1469-1476</pages><volume>97</volume><number>10</number><keywords><keyword>Root proliferation</keyword><keyword>Root mapping</keyword><keyword>Early vigour</keyword><keyword>Root length density</keyword><keyword>Yield components</keyword></keywords><dates><year>2010</year><pub-dates><date>10//</date></pub-dates></dates><isbn>0378-3774</isbn><urls><related-urls><url>http://www.sciencedirect.com/science/article/pii/S0378377410001551</url></related-urls></urls><electronic-resource-num>http://dx.doi.org/10.1016/j.agwat.2010.05.001</electronic-resource-num></record></Cite></EndNote>(Palta et al. 2010)
-Outline what is known about management effects on chickpea (C.arietinum only) root systems? Eg. cultivation, no tillage, herbicides, plant density, planting date, growth hormones etc. Need to have separate paragraphs for non-field (glasshouse, controlled environment etc) and field studies. ADDIN EN.CITE <EndNote><Cite><Author>Brown</Author><Year>1989</Year><RecNum>336</RecNum><DisplayText>(Brown et al. 1989)</DisplayText><record><rec-number>336</rec-number><foreign-keys><key app="EN" db-id="dtf2exdvi9zffjetve1vt9wlwwsxdr0xzdtr" timestamp="1533790773">336</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Brown, S. C.</author><author>Gregory, P. J.</author><author>Cooper, P. J. M.</author><author>Keatinge, J. D. H.</author></authors></contributors><titles><title><style face="normal" font="default" size="100%">Root and shoot growth and water use of chickpea (</style><style face="italic" font="default" size="100%">Cicer arietinum</style><style face="normal" font="default" size="100%">) grown in dryland conditions: effects of sowing date and genotype</style></title><secondary-title>The Journal of Agricultural Science</secondary-title></titles><periodical><full-title>The Journal of Agricultural Science</full-title></periodical><pages>41-49</pages><volume>113</volume><number>1</number><edition>03/01</edition><dates><year>1989</year></dates><publisher>Cambridge University Press</publisher><isbn>0021-8596</isbn><urls><related-urls><url>https://www.cambridge.org/core/article/root-and-shoot-growth-and-water-use-of-chickpea-cicer-arietinum-grown-in-dryland-conditions-effects-of-sowing-date-and-genotype/E7CBC993348D516F81A0BA6D1B8C163D</url></related-urls></urls><electronic-resource-num>10.1017/S0021859600084598</electronic-resource-num><remote-database-name>Cambridge Core</remote-database-name><remote-database-provider>Cambridge University Press</remote-database-provider></record></Cite></EndNote>(Brown et al. 1989)
Links to the references I cited in case they might be useful
Brown SC, Gregory PJ, Cooper PJM, Keatinge JDH (1989) Root and shoot growth and water use of chickpea (Cicer arietinum) grown in dryland conditions: effects of sowing date and genotype. The Journal of Agricultural Science 113 (1):41-49. doi:10.1017/S0021859600084598
Dron N, Ryan M, Martin M, Forknall CR, Hobson K, Sutton T, Bithell SL (2022a) Phytophthora root rot and waterlogging in chickpeas minimising risk and management options. Paper presented at the GRDC Update paper, 25 February, Goodiwindi Update. https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2022/02/phytophthora-root-rot-and-waterlogging-in-chickpeas-minimising-risk-and-management-options,
Dron N, Simpfendorfer S, Sutton T, Pengilley G, Hobson K (2022b) Cause of Death: Phytophthora or Flood? Effects of Waterlogging on Phytophthora medicaginis and Resistance of Chickpea (Cicer arietinum). Agronomy-Basel 12 (1). doi:10.3390/agronomy12010089
Dron NM, Sutton T, Simpfendorfer S, Harden S, Hobson K (2021) Phenotyping for waterlogging tolerance as a proxy for Phytophthora medicaginis resistance in chickpea. Plant Health Progress (ja):null. doi:10.1094/php-02-21-0035-fi
Gaur PM, Krishnamurthy L, Kashiwagi J (2008) Improving drought-avoidance root traits in chickpea (Cicer arietinum L.) - Current status of research at ICRISAT. Plant Production Science 11 (1):3-11. doi:10.1626/pps.11.3
Kashiwagi J, Krishnamurthy L, Crouch JH, Serraj R (2006) Variability of root length density and its contributions to seed yield in chickpea (Cicer arietinum L.) under terminal drought stress. Field Crops Research 95 (2-3):171-181. doi:10.1016/j.fcr.2005.02.012
Kashiwagi J, Krishnamurthy L, Upadhyaya HD, Krishna H, Chandra S, Vadez V, Serraj R (2005) Genetic variability of drought-avoidance root traits in the mini-core germplasm collection of chickpea (Cicer arietinum L.). Euphytica 146 (3):213-222. doi:10.1007/s10681-005-9007-1
Kumar N, Nandwal AS, Waldia RS, Singh S, Devi S, Sharma KD, Kumar A (2012) DROUGHT TOLERANCE IN CHICKPEA AS EVALUATED BY ROOT CHARACTERISTICS, PLANT WATER STATUS, MEMBRANE INTEGRITY AND CHLOROPHYLL FLUORESCENCE TECHNIQUES. Experimental Agriculture 48 (3):378-387. doi:10.1017/S0014479712000063
Lalitha N, Upadhyaya HD, Krishnamurthy L, Kashiwagi J, Kavikishor PB, Singh S (2015) Assessing Genetic Variability for Root Traits and Identification of Trait-Specific Germplasm in Chickpea Reference Set. Crop Science 55 (5):2034-2045. doi:10.2135/cropsci2014.12.0847
Palta JA, Ganjeali A, Turner NC, Siddique KHM (2010) Effects of transient subsurface waterlogging on root growth, plant biomass and yield of chickpea. Agricultural Water Management 97 (10):1469-1476. doi:http://dx.doi.org/10.1016/j.agwat.2010.05.001Purushothaman R, Krishnamurthy L, Upadhyaya HD, Vadez V, Varshney RK (2017a) Genotypic variation in soil water use and root distribution and their implications for drought tolerance in chickpea. Functional Plant Biology 44 (2):235-252. doi:10.1071/fp16154
Purushothaman R, Krishnamurthy L, Upadhyaya HD, Vadez V, Varshney RK (2017b) Root traits confer grain yield advantages under terminal drought in chickpea (Cicer arietinum L.). Field Crops Research 201:146-161. doi:10.1016/j.fcr.2016.11.004
Ramamoorthy P, Lakshmanan K, Upadhyaya HD, Vadez V, Varshney RK (2017) Root traits confer grain yield advantages under terminal drought in chickpea (Cicer arietinum L.). Field Crops Research 201:146-161. doi:https://doi.org/10.1016/j.fcr.2016.11.004Serraj R, Krishnamurthy L, Kashiwagi J, Kumar J, Chandra S, Crouch JH (2004) Variation in root traits of chickpea (Cicer arietinum L.) grown under terminal drought. Field Crops Research 88 (2-3):115-127. doi:10.1016/j.fcr.2003.12.001
Varshney RK, Gaur PM, Chamarthi SK, Krishnamurthy L, Tripathi S, Kashiwagi J, Samineni S, Singh VK, Thudi M, Jaganathan D (2013) Fast-Track Introgression of QTL-hotspot for Root Traits and Other Drought Tolerance Traits in JG 11, an Elite and Leading Variety of Chickpea. The Plant Genome 6 (3). doi:10.3835/plantgenome2013.07.0022
Title: Chickpea roots System
Word limit: 800 and no maximum
Instruction
Write on Chickpea (Cicer arietinum) root systems: No need to write any introduction about chickpea, just start with Chickpea roots and the subheadings below.
Structure and functionDescribe the biology/structure/function of the root system, tap root, secondary root growth etc.
Genotype, environment and management effects on root systems-Outline what is known about differences among chickpea (C.arietinum ) genotypes in root systems?
-Need to have separate paragraphs for non-field (glasshouse, controlled environment etc) and field studies. ADDIN EN.CITE <EndNote><Cite><Author>Brown</Author><Year>1989</Year><RecNum>336</RecNum><DisplayText>(Brown et al. 1989)</DisplayText><record><rec-number>336</rec-number><foreign-keys><key app="EN" db-id="dtf2exdvi9zffjetve1vt9wlwwsxdr0xzdtr" timestamp="1533790773">336</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Brown, S. C.</author><author>Gregory, P. J.</author><author>Cooper, P. J. M.</author><author>Keatinge, J. D. H.</author></authors></contributors><titles><title><style face="normal" font="default" size="100%">Root and shoot growth and water use of chickpea (</style><style face="italic" font="default" size="100%">Cicer arietinum</style><style face="normal" font="default" size="100%">) grown in dryland conditions: effects of sowing date and genotype</style></title><secondary-title>The Journal of Agricultural Science</secondary-title></titles><periodical><full-title>The Journal of Agricultural Science</full-title></periodical><pages>41-49</pages><volume>113</volume><number>1</number><edition>03/01</edition><dates><year>1989</year></dates><publisher>Cambridge University Press</publisher><isbn>0021-8596</isbn><urls><related-urls><url>https://www.cambridge.org/core/article/root-and-shoot-growth-and-water-use-of-chickpea-cicer-arietinum-grown-in-dryland-conditions-effects-of-sowing-date-and-genotype/E7CBC993348D516F81A0BA6D1B8C163D</url></related-urls></urls><electronic-resource-num>10.1017/S0021859600084598</electronic-resource-num><remote-database-name>Cambridge Core</remote-database-name><remote-database-provider>Cambridge University Press</remote-database-provider></record></Cite></EndNote>(Brown et al. 1989)
-Could include a table that summarises key findings for which root traits differ?
-Outline what is known about environmental effects on chickpea (C.arietinum only) root systems? Eg. Soil type, rainfall, acidity, soil compaction, waterlogging (dont cover Phytophthora here) etc. Need to have separate paragraphs for non-field (glasshouse, controlled environment etc) and field studies. May need to defines types of drought eg. terminal drought if comparing different types of drought etc
Some papers to help are: PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5Ecm9uPC9BdXRob3I+PFllYXI+MjAyMjwvWWVhcj48UmVj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ADDIN EN.CITE PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5Ecm9uPC9BdXRob3I+PFllYXI+MjAyMjwvWWVhcj48UmVj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ADDIN EN.CITE.DATA (Dron et al. 2021; Dron et al. 2022b). See Indian studies cited by Varshney ADDIN EN.CITE <EndNote><Cite><Author>Varshney</Author><Year>2013</Year><RecNum>386</RecNum><DisplayText>(Varshney et al. 2013)</DisplayText><record><rec-number>386</rec-number><foreign-keys><key app="EN" db-id="dtf2exdvi9zffjetve1vt9wlwwsxdr0xzdtr" timestamp="1553486765">386</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Varshney, Rajeev K.</author><author>Gaur, Pooran M.</author><author>Chamarthi, Siva K.</author><author>Krishnamurthy, L.</author><author>Tripathi, Shailesh</author><author>Kashiwagi, Junichi</author><author>Samineni, Srinivasan</author><author>Singh, Vikas K.</author><author>Thudi, Mahendar</author><author>Jaganathan, Deepa</author></authors></contributors><titles><title>Fast-Track Introgression of QTL-hotspot for Root Traits and Other Drought Tolerance Traits in JG 11, an Elite and Leading Variety of Chickpea</title><secondary-title>The Plant Genome</secondary-title></titles><periodical><full-title>The Plant Genome</full-title></periodical><volume>6</volume><number>3</number><dates><year>2013</year></dates><urls><related-urls><url>http://dx.doi.org/10.3835/plantgenome2013.07.0022</url></related-urls></urls><electronic-resource-num>10.3835/plantgenome2013.07.0022</electronic-resource-num><language>English</language></record></Cite></EndNote>(Varshney et al. 2013)and those that cite their work where different root traits are identified for particular drought types etc PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5LYXNoaXdhZ2k8L0F1dGhvcj48WWVhcj4yMDA2PC9ZZWFy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ADDIN EN.CITE PEVuZE5vdGU+PENpdGU+PEF1dGhvcj5LYXNoaXdhZ2k8L0F1dGhvcj48WWVhcj4yMDA2PC9ZZWFy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ADDIN EN.CITE.DATA (Serraj et al. 2004; Kashiwagi et al. 2005; Kashiwagi et al. 2006; Gaur et al. 2008; Palta et al. 2010; Kumar et al. 2012; Lalitha et al. 2015; Purushothaman et al. 2017b, a; Ramamoorthy et al. 2017) Hopefully there are some more recent studies now citing this older work. ADDIN EN.CITE <EndNote><Cite><Author>Palta</Author><Year>2010</Year><RecNum>199</RecNum><DisplayText>(Palta et al. 2010)</DisplayText><record><rec-number>199</rec-number><foreign-keys><key app="EN" db-id="dtf2exdvi9zffjetve1vt9wlwwsxdr0xzdtr" timestamp="1468714492">199</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Palta, J. A.</author><author>Ganjeali, A.</author><author>Turner, N. C.</author><author>Siddique, K. H. M.</author></authors></contributors><titles><title>Effects of transient subsurface waterlogging on root growth, plant biomass and yield of chickpea</title><secondary-title>Agricultural Water Management</secondary-title></titles><pages>1469-1476</pages><volume>97</volume><number>10</number><keywords><keyword>Root proliferation</keyword><keyword>Root mapping</keyword><keyword>Early vigour</keyword><keyword>Root length density</keyword><keyword>Yield components</keyword></keywords><dates><year>2010</year><pub-dates><date>10//</date></pub-dates></dates><isbn>0378-3774</isbn><urls><related-urls><url>http://www.sciencedirect.com/science/article/pii/S0378377410001551</url></related-urls></urls><electronic-resource-num>http://dx.doi.org/10.1016/j.agwat.2010.05.001</electronic-resource-num></record></Cite></EndNote>(Palta et al. 2010)
-Outline what is known about management effects on chickpea (C.arietinum only) root systems? Eg. cultivation, no tillage, herbicides, plant density, planting date, growth hormones etc. Need to have separate paragraphs for non-field (glasshouse, controlled environment etc) and field studies. ADDIN EN.CITE <EndNote><Cite><Author>Brown</Author><Year>1989</Year><RecNum>336</RecNum><DisplayText>(Brown et al. 1989)</DisplayText><record><rec-number>336</rec-number><foreign-keys><key app="EN" db-id="dtf2exdvi9zffjetve1vt9wlwwsxdr0xzdtr" timestamp="1533790773">336</key></foreign-keys><ref-type name="Journal Article">17</ref-type><contributors><authors><author>Brown, S. C.</author><author>Gregory, P. J.</author><author>Cooper, P. J. M.</author><author>Keatinge, J. D. H.</author></authors></contributors><titles><title><style face="normal" font="default" size="100%">Root and shoot growth and water use of chickpea (</style><style face="italic" font="default" size="100%">Cicer arietinum</style><style face="normal" font="default" size="100%">) grown in dryland conditions: effects of sowing date and genotype</style></title><secondary-title>The Journal of Agricultural Science</secondary-title></titles><periodical><full-title>The Journal of Agricultural Science</full-title></periodical><pages>41-49</pages><volume>113</volume><number>1</number><edition>03/01</edition><dates><year>1989</year></dates><publisher>Cambridge University Press</publisher><isbn>0021-8596</isbn><urls><related-urls><url>https://www.cambridge.org/core/article/root-and-shoot-growth-and-water-use-of-chickpea-cicer-arietinum-grown-in-dryland-conditions-effects-of-sowing-date-and-genotype/E7CBC993348D516F81A0BA6D1B8C163D</url></related-urls></urls><electronic-resource-num>10.1017/S0021859600084598</electronic-resource-num><remote-database-name>Cambridge Core</remote-database-name><remote-database-provider>Cambridge University Press</remote-database-provider></record></Cite></EndNote>(Brown et al. 1989)
Links to the references I cited in case they might be useful
Brown SC, Gregory PJ, Cooper PJM, Keatinge JDH (1989) Root and shoot growth and water use of chickpea (Cicer arietinum) grown in dryland conditions: effects of sowing date and genotype. The Journal of Agricultural Science 113 (1):41-49. doi:10.1017/S0021859600084598
Dron N, Ryan M, Martin M, Forknall CR, Hobson K, Sutton T, Bithell SL (2022a) Phytophthora root rot and waterlogging in chickpeas minimising risk and management options. Paper presented at the GRDC Update paper, 25 February, Goodiwindi Update. https://grdc.com.au/resources-and-publications/grdc-update-papers/tab-content/grdc-update-papers/2022/02/phytophthora-root-rot-and-waterlogging-in-chickpeas-minimising-risk-and-management-options,
Dron N, Simpfendorfer S, Sutton T, Pengilley G, Hobson K (2022b) Cause of Death: Phytophthora or Flood? Effects of Waterlogging on Phytophthora medicaginis and Resistance of Chickpea (Cicer arietinum). Agronomy-Basel 12 (1). doi:10.3390/agronomy12010089
Dron NM, Sutton T, Simpfendorfer S, Harden S, Hobson K (2021) Phenotyping for waterlogging tolerance as a proxy for Phytophthora medicaginis resistance in chickpea. Plant Health Progress (ja):null. doi:10.1094/php-02-21-0035-fi
Gaur PM, Krishnamurthy L, Kashiwagi J (2008) Improving drought-avoidance root traits in chickpea (Cicer arietinum L.) - Current status of research at ICRISAT. Plant Production Science 11 (1):3-11. doi:10.1626/pps.11.3
Kashiwagi J, Krishnamurthy L, Crouch JH, Serraj R (2006) Variability of root length density and its contributions to seed yield in chickpea (Cicer arietinum L.) under terminal drought stress. Field Crops Research 95 (2-3):171-181. doi:10.1016/j.fcr.2005.02.012
Kashiwagi J, Krishnamurthy L, Upadhyaya HD, Krishna H, Chandra S, Vadez V, Serraj R (2005) Genetic variability of drought-avoidance root traits in the mini-core germplasm collection of chickpea (Cicer arietinum L.). Euphytica 146 (3):213-222. doi:10.1007/s10681-005-9007-1
Kumar N, Nandwal AS, Waldia RS, Singh S, Devi S, Sharma KD, Kumar A (2012) DROUGHT TOLERANCE IN CHICKPEA AS EVALUATED BY ROOT CHARACTERISTICS, PLANT WATER STATUS, MEMBRANE INTEGRITY AND CHLOROPHYLL FLUORESCENCE TECHNIQUES. Experimental Agriculture 48 (3):378-387. doi:10.1017/S0014479712000063
Lalitha N, Upadhyaya HD, Krishnamurthy L, Kashiwagi J, Kavikishor PB, Singh S (2015) Assessing Genetic Variability for Root Traits and Identification of Trait-Specific Germplasm in Chickpea Reference Set. Crop Science 55 (5):2034-2045. doi:10.2135/cropsci2014.12.0847
Palta JA, Ganjeali A, Turner NC, Siddique KHM (2010) Effects of transient subsurface waterlogging on root growth, plant biomass and yield of chickpea. Agricultural Water Management 97 (10):1469-1476. doi:http://dx.doi.org/10.1016/j.agwat.2010.05.001Purushothaman R, Krishnamurthy L, Upadhyaya HD, Vadez V, Varshney RK (2017a) Genotypic variation in soil water use and root distribution and their implications for drought tolerance in chickpea. Functional Plant Biology 44 (2):235-252. doi:10.1071/fp16154
Purushothaman R, Krishnamurthy L, Upadhyaya HD, Vadez V, Varshney RK (2017b) Root traits confer grain yield advantages under terminal drought in chickpea (Cicer arietinum L.). Field Crops Research 201:146-161. doi:10.1016/j.fcr.2016.11.004
Ramamoorthy P, Lakshmanan K, Upadhyaya HD, Vadez V, Varshney RK (2017) Root traits confer grain yield advantages under terminal drought in chickpea (Cicer arietinum L.). Field Crops Research 201:146-161. doi:https://doi.org/10.1016/j.fcr.2016.11.004Serraj R, Krishnamurthy L, Kashiwagi J, Kumar J, Chandra S, Crouch JH (2004) Variation in root traits of chickpea (Cicer arietinum L.) grown under terminal drought. Field Crops Research 88 (2-3):115-127. doi:10.1016/j.fcr.2003.12.001
Varshney RK, Gaur PM, Chamarthi SK, Krishnamurthy L, Tripathi S, Kashiwagi J, Samineni S, Singh VK, Thudi M, Jaganathan D (2013) Fast-Track Introgression of QTL-hotspot for Root Traits and Other Drought Tolerance Traits in JG 11, an Elite and Leading Variety of Chickpea. The Plant Genome 6 (3). doi:10.3835/plantgenome2013.07.0022
