Assessment of Drought Tolerance of Miscanthus Genotypes through Dry-Down Treatment and Fixed-Soil-Moisture-Content Techniques

Miscanthus, a high-yielding, warm-season C4 grass, shows promise as a potential bioenergy crop in temperate regions. However, drought may restrain productivity of most genotypes. In this study, total 29 Miscanthus genotypes of East-Asian origin were screened for drought tolerance with two methods, a...

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Published inAgriculture (Basel) Vol. 12; no. 1; p. 6
Main Authors Weng, Tzu-Ya, Nakashima, Taiken, Villanueva-Morales, Antonio, Stewart, J. Ryan, Sacks, Erik J., Yamada, Toshihiko
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.01.2022
Subjects
automated irrigation control
bioenergy crops
Biomass
Clusters
Corn
Diploids
Drought
Drought resistance
drought tolerance
Efficiency
Energy crops
Experiments
Genotypes
Germplasm
Irrigation systems
Miscanthus
Miscanthus sinensis
Miscanthus spp
Moisture content
Photosynthesis
photosynthetic parameters
Physiological responses
Physiology
Plant tolerance
Ploidy
Principal components analysis
Rain
Renewable energy
Soil moisture
Stress
Water content
China
Japan
Russia
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Summary:Miscanthus, a high-yielding, warm-season C4 grass, shows promise as a potential bioenergy crop in temperate regions. However, drought may restrain productivity of most genotypes. In this study, total 29 Miscanthus genotypes of East-Asian origin were screened for drought tolerance with two methods, a dry-down treatment in two locations and a system where soil moisture content (SMC) was maintained at fixed levels using an automatic irrigation system in one location. One genotype, Miscanthus sinensis PMS-285, showed relatively high drought-tolerance capacity under moderate drought stress. Miscanthus sinensis PMS-285, aligned with the M. sinensis ‘Yangtze-Qinling’ genetic cluster, had relatively high principal component analysis ranking values in both two locations experiments, Hokkaido University and Brigham Young University. Genotypes derived from the ‘Yangtze-Qinling’ genetic cluster showed relatively greater photosynthetic performance than other genetic clusters, suggesting germplasm from this group could be a potential source of drought-tolerant plant material. Diploid genotypes showed stronger drought tolerance than tetraploid genotypes, suggesting ploidy could be an influential factor for this trait. Of the two methods, the dry-down treatment appears more suitable for selecting drought-tolerant genotypes given that it reflects water-stress conditions in the field. However, the fixed-SMC experiment may be good for understanding the physiological responses of plants to relatively constant water-stress levels.
ISSN:2077-0472
2077-0472
DOI:10.3390/agriculture12010006