Harmonizing technological advances in phenomics and genomics for enhanced salt tolerance in rice from a practical perspective
Half of the global human population is dependent on rice as a staple food crop and more than 25% increase in rice productivity is required to feed the global population by 2030. With increase in irrigation, global warming and rising sea level, rising salinity has become one of the major challenges t...
| Main Authors: | , , , , , , , , |
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| Format: | Journal Article |
| Language: | Inglés |
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Springer
2019
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| Subjects: | |
| Online Access: | https://hdl.handle.net/10568/164593 |
| _version_ | 1855542331144404992 |
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| author | Jaiswal, Sarika Gautam, R.K. Singh, R.K. Krishnamurthy, S.L. Ali, S. Sakthivel, K. Iquebal, M.A. Rai, Anil Kumar, Dinesh |
| author_browse | Ali, S. Gautam, R.K. Iquebal, M.A. Jaiswal, Sarika Krishnamurthy, S.L. Kumar, Dinesh Rai, Anil Sakthivel, K. Singh, R.K. |
| author_facet | Jaiswal, Sarika Gautam, R.K. Singh, R.K. Krishnamurthy, S.L. Ali, S. Sakthivel, K. Iquebal, M.A. Rai, Anil Kumar, Dinesh |
| author_sort | Jaiswal, Sarika |
| collection | Repository of Agricultural Research Outputs (CGSpace) |
| description | Half of the global human population is dependent on rice as a staple food crop and more than 25% increase in rice productivity is required to feed the global population by 2030. With increase in irrigation, global warming and rising sea level, rising salinity has become one of the major challenges to enhance the rice productivity. Since the loss on this account is to the tune of US$12 billion per annum, it necessitates the global attention. In the era of technological advancement, substantial progress has been made on phenomics and genomics data generation but reaping benefit of this in rice salinity variety development in terms of cost, time and precision requires their harmonization. There is hardly any comprehensive holistic review for such combined approach. Present review describes classical salinity phenotyping approaches having morphological, physiological and biochemical components. It also gives a detailed account of invasive and non-invasive approaches of phenomic data generation and utilization. Classical work of rice salinity QLTs mapping in the form of chromosomal atlas has been updated. This review describes how QTLs can be further dissected into QTN by GWAS and transcriptomic approaches. Opportunities and progress made by transgenic, genome editing, metagenomics approaches in combating rice salinity problems are discussed. Major aim of this review is to provide a comprehensive over-view of hitherto progress made in rice salinity tolerance research which is required to understand bridging of phenotype based breeding with molecular breeding. This review is expected to assist rice breeders in their endeavours by fetching greater harmonization of technological advances in phenomics and genomics for better pragmatic approach having practical perspective. |
| format | Journal Article |
| id | CGSpace164593 |
| institution | CGIAR Consortium |
| language | Inglés |
| publishDate | 2019 |
| publishDateRange | 2019 |
| publishDateSort | 2019 |
| publisher | Springer |
| publisherStr | Springer |
| record_format | dspace |
| spelling | CGSpace1645932025-05-14T10:40:02Z Harmonizing technological advances in phenomics and genomics for enhanced salt tolerance in rice from a practical perspective Jaiswal, Sarika Gautam, R.K. Singh, R.K. Krishnamurthy, S.L. Ali, S. Sakthivel, K. Iquebal, M.A. Rai, Anil Kumar, Dinesh agronomy crop science plant science soil science Half of the global human population is dependent on rice as a staple food crop and more than 25% increase in rice productivity is required to feed the global population by 2030. With increase in irrigation, global warming and rising sea level, rising salinity has become one of the major challenges to enhance the rice productivity. Since the loss on this account is to the tune of US$12 billion per annum, it necessitates the global attention. In the era of technological advancement, substantial progress has been made on phenomics and genomics data generation but reaping benefit of this in rice salinity variety development in terms of cost, time and precision requires their harmonization. There is hardly any comprehensive holistic review for such combined approach. Present review describes classical salinity phenotyping approaches having morphological, physiological and biochemical components. It also gives a detailed account of invasive and non-invasive approaches of phenomic data generation and utilization. Classical work of rice salinity QLTs mapping in the form of chromosomal atlas has been updated. This review describes how QTLs can be further dissected into QTN by GWAS and transcriptomic approaches. Opportunities and progress made by transgenic, genome editing, metagenomics approaches in combating rice salinity problems are discussed. Major aim of this review is to provide a comprehensive over-view of hitherto progress made in rice salinity tolerance research which is required to understand bridging of phenotype based breeding with molecular breeding. This review is expected to assist rice breeders in their endeavours by fetching greater harmonization of technological advances in phenomics and genomics for better pragmatic approach having practical perspective. 2019-12 2024-12-19T12:54:06Z 2024-12-19T12:54:06Z Journal Article https://hdl.handle.net/10568/164593 en Open Access Springer Jaiswal, Sarika; Gautam, R. K.; Singh, R. K.; Krishnamurthy, S. L.; Ali, S.; Sakthivel, K.; Iquebal, M. A.; Rai, Anil and Kumar, Dinesh. 2019. Harmonizing technological advances in phenomics and genomics for enhanced salt tolerance in rice from a practical perspective. Rice, Volume 12, no. 1 |
| spellingShingle | agronomy crop science plant science soil science Jaiswal, Sarika Gautam, R.K. Singh, R.K. Krishnamurthy, S.L. Ali, S. Sakthivel, K. Iquebal, M.A. Rai, Anil Kumar, Dinesh Harmonizing technological advances in phenomics and genomics for enhanced salt tolerance in rice from a practical perspective |
| title | Harmonizing technological advances in phenomics and genomics for enhanced salt tolerance in rice from a practical perspective |
| title_full | Harmonizing technological advances in phenomics and genomics for enhanced salt tolerance in rice from a practical perspective |
| title_fullStr | Harmonizing technological advances in phenomics and genomics for enhanced salt tolerance in rice from a practical perspective |
| title_full_unstemmed | Harmonizing technological advances in phenomics and genomics for enhanced salt tolerance in rice from a practical perspective |
| title_short | Harmonizing technological advances in phenomics and genomics for enhanced salt tolerance in rice from a practical perspective |
| title_sort | harmonizing technological advances in phenomics and genomics for enhanced salt tolerance in rice from a practical perspective |
| topic | agronomy crop science plant science soil science |
| url | https://hdl.handle.net/10568/164593 |
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