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"Beom-ki Kim"

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"Beom-ki Kim"

Review Article
Phenotyping of Plants for Drought and Salt Tolerance Using Infra-Red Thermography
Taek-ryoun Kwon, Kyung-hwan Kim, Hae-Jin Yoon, Seung-kon Lee, Beom-ki Kim, Zamin Shaheed Siddiqui
Plant Breed. Biotech. 2015;3(4):299-307.   Published online November 30, 2015
DOI: https://doi.org/10.9787/PBB.2015.3.4.299

Drought and salinity are the major environmental constrains in global agricultural production. Plant breeding for the drought and salt tolerance needs a proper assessment procedure to overcome stress constrain. Fundamental understanding on the physiological nature of the plant tolerance provides valuable information for the genetically modified crop’s development. Drought or salt stress induces several common physiological responses in plants such as water relation and photosynthetic capacitiy. It is because both stresses lead cellular dehydration in the plants, particularly, during the early phase of stress imposition. Drought and salinity decrease CO2 availability for photosynthesis via stomatal limitation as well as elevate leaf temperature due to partially closed stomata. In this scenario, stomatal regulation and plant water status are important aspects in abiotic stress environment. These physiological responses have a function to stabilize the temperature inside plant/leaf. Therefore phenotyping through an infra-red thermography (heat sensitive sensor), could be a useful tool in the selection of a tolerant genotypes. Infra-red thermography is a part of the electromagnetic spectrum which emits a certain amount of radiation as a function of their temperatures. In general, the plants which have less water, would have higher temperature and display more infra-red radiations. In abiotic stresses such as drought and salinity, plant water status is affected and varied from the sensitive to tolerant level. Infra-red images of plants are often linked with some of the physiological attributes to the tolerance. This review covers the limits, advantages, linkages, comparison and other prospectives of using thermal imagaes in modern phenotyping techniques.

Citations

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  • Sustainable effect of a symbiotic nitrogen‐fixing bacterium Sinorhizobium meliloti on nodulation and photosynthetic traits of four leguminous plants under low moisture stress environment
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    Letters in Applied Microbiology.2021; 72(6): 714.     CrossRef
  • High-throughput phenotyping platform for analyzing drought tolerance in rice
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  • Thermal Imaging for Plant Stress Detection and Phenotyping
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    Remote Sensing.2020; 13(1): 68.     CrossRef
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