Sweetpotato cultivars responses to interactive effects of warming, drought, and elevated carbon dioxide

Plants are sensitive to changes projected in climates, such as elevated carbon dioxide (eCO ), high temperature (T), and drought stress (DS), which affect crop growth, development, and yield. These stresses, either alone or in combination, affect all aspects of sweetpotato plant growth and developme...

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Bibliographic Details
Published in:Frontiers in genetics 2023-01, Vol.13, p.1080125-1080125
Main Authors: Taduri, Shasthree, Bheemanahalli, Raju, Wijewardana, Chathurika, Lone, Ajaz A, Meyers, Stephen L, Shankle, Mark, Gao, Wei, Reddy, K Raja
Format: Article
Language:English
Subjects:
climate change
CO2
drought stress
Genetics
high temperature
interactive stresses
storage roots
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Summary:Plants are sensitive to changes projected in climates, such as elevated carbon dioxide (eCO ), high temperature (T), and drought stress (DS), which affect crop growth, development, and yield. These stresses, either alone or in combination, affect all aspects of sweetpotato plant growth and development, including storage root development and yield. We tested three sweetpotato cultivars (Beauregard, Hatteras, and LA1188) responses to eight treatments (Control, DS, T, eCO , DS + T, T + eCO DS + eCO DS + T + eCO ). All treatments were imposed 36 days after transplanting (DAP) and continued for 47 days. Treatments substantially affected gas exchange, photosynthetic pigments, growth, and storage root components. Cultivars differed considerably for many of the measured parameters. The most significant negative impact of DS was recorded for the shoot and root weights. The combination of DS + T had a significant negative effect on storage root parameters. eCO alleviated some of the damaging effects of DS and high T in sweetpotato. For instance, eCO alone or combined with DS increased the storage root weights by 22% or 42% across all three cultivars, respectively. Based on the stress response index, cultivar "Hatteras" was most tolerant to individual and interactive stresses, and "LA 1188" was sensitive. Our findings suggest that eCO negates the negative impact of T or DS on the growth and yield of sweetpotato. We identified a set of individual and interactive stress-tolerant traits that can help select stress cultivars or breed new lines for future environments.
ISSN:1664-8021
1664-8021
DOI:10.3389/fgene.2022.1080125