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Non-destructive Phenotyping of Lettuce Plants in Early Stages of Development with Optical Sensors. | LitMetric

Non-destructive Phenotyping of Lettuce Plants in Early Stages of Development with Optical Sensors.

Front Plant Sci

High Resolution Plant Phenomics Centre, Australian Plant Phenomics Facility, Commonwealth Scientific and Industrial Research Organisation Agriculture and Food, CanberraACT, Australia; Australian Research Council Centre of Excellence for Translational Photosynthesis, Plant Science Division, Research School of Biology, Australian National University, ActonACT, Australia.

Published: December 2016

AI Article Synopsis

  • Rapid development of 'baby-leaf' lettuce is crucial, but environmental factors like temperature and salinity hinder growth.
  • The study tested non-destructive phenotyping using optical sensors to evaluate early-stage lettuce under stress conditions.
  • Results showed top view sensors could assess plant size and detect chlorophyll changes, indicating that lettuce can adapt well to extreme temperatures and salinity without permanent damage.

Article Abstract

Rapid development of plants is important for the production of 'baby-leaf' lettuce that is harvested when plants reach the four- to eight-leaf stage of growth. However, environmental factors, such as high or low temperature, or elevated concentrations of salt, inhibit lettuce growth. Therefore, non-destructive evaluations of plants can provide valuable information to breeders and growers. The objective of the present study was to test the feasibility of using non-destructive phenotyping with optical sensors for the evaluations of lettuce plants in early stages of development. We performed the series of experiments to determine if hyperspectral imaging and chlorophyll fluorescence imaging can determine phenotypic changes manifested on lettuce plants subjected to the extreme temperature and salinity stress treatments. Our results indicate that top view optical sensors alone can accurately determine plant size to approximately 7 g fresh weight. Hyperspectral imaging analysis was able to detect changes in the total chlorophyll (RCC) and anthocyanin (RAC) content, while chlorophyll fluorescence imaging revealed photoinhibition and reduction of plant growth caused by the extreme growing temperatures (3 and 39°C) and salinity (100 mM NaCl). Though no significant correlation was found between and decrease in plant growth due to stress when comparisons were made across multiple accessions, our results indicate that lettuce plants have a high adaptability to both low (3°C) and high (39°C) temperatures, with no permanent damage to photosynthetic apparatus and fast recovery of plants after moving them to the optimal (21°C) temperature. We have also detected a strong relationship between visual rating of the green- and red-leaf color intensity and RCC and RAC, respectively. Differences in RAC among accessions suggest that the selection for intense red color may be easier to perform at somewhat lower than the optimal temperature. This study serves as a proof of concept that optical sensors can be successfully used as tools for breeders when evaluating young lettuce plants. Moreover, we were able to identify the locus for light green leaf color (), and position this locus on the molecular linkage map of lettuce, which shows that these techniques have sufficient resolution to be used in a genetic context in lettuce.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5187177PMC
http://dx.doi.org/10.3389/fpls.2016.01985DOI Listing

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