Physiological Adaptive Strategies of Oil Seed Crop
Additionally, the Fv/Fm and NPQ between cotyledons and true leaves showed different trends in salinity and alkalinity. The results suggested that alkali stress could cause much more
Hence, improving salt tolerance of crop has become an urgent task to enhance crop production worldwide (Munns, 2005). A better understanding of the physiological and molecular
FrontiersPhysiological Adaptive Strategies of Oil Seed
However, the physiological responses and adaptive strategies of plant cotyledons and true leaves under salt-alkali stress during early seedling stage are still poorly understood, especially under alkali stress. Castor bean
Different physiological responses and adaptive strategies were found in cotyledons and true leaves of this species under salt-alkali stress. The results will help us develop a better understanding of
Physiological Adaptive Strategies of Oil Seed Crop
The results suggested that alkali stress could cause much more damage to the castor bean seedlings, and different physiological responses and adaptive strategies are found in
Physiological Adaptive Strategies of Oil Seed Crop Ricinus communis Early Seedlings (Cotyledon vs. True Leaf) Under Salt and Alkali Stresses: From the Growth, Photosynthesis and
Directory of Open Access JournalsPhysiological Adaptive Strategies of Oil Seed Crop Ricinus
Frontiers in Plant Science (Jan 2019) Physiological Adaptive Strategies of Oil Seed Crop Ricinus communis Early Seedlings (Cotyledon vs. True Leaf) Under Salt and Alkali Stresses: From the
QTL mapping has been adopted for the genes of complex traits in a number of oilseed crops, for seed and oil yield (Shi et al., 2009) and abiotic stress tolerance (Kiani et al.,
Physiological Adaptive Strategies of Oil Seed Crop Ricinus
Full-text article: Physiological Adaptive Strategies of Oil Seed Crop Ricinus communis Early Seedlings (Cotyledon vs. True Leaf) Under Salt and Alkali Stress Ricinus communis is an
The natural defense system in these crops cannot withstand the harmful impacts of heat stress, thus causing a considerable loss in seed and oil yield. Therefore, a proper
Crop adaptation to climate change: An evolutionary perspective
The disciplines of evolutionary biology and plant and animal breeding have been intertwined throughout their development, with responses to artificial
Recent global mapping
FrontiersFrontiers Salinity survival: molecular
Another member of
From gene-focused analyses to comprehensive, adaptive strategies, nature's resilience emerges from a rich interplay of genetic, cellular, and physiological narratives. This depth of
FrontiersFrontiers Physiological and Defense Responses of Tea Plants
Therefore, it is highly likely that insects and pathogens may also evolve adaptive strategies in response to elevated CO 2. However, studies revealing elevated CO 2 effects on
Introduction. Primarily cultivated for the oil present in their seeds, major oilseed crops include rapeseed (Brassica napus L.), soybeans (Glycine max), and peanuts (Arachis hypogaea
- Can abiotic stress affect oilseed crop yields?
- While prolonged or acute exposure to any single abiotic stress can be enough to devastate oilseed crop yields in the field, several stresses often co-occur in various combinations and at varying levels, which can compound the resulting negative effects ( Elferjani and Soolanayakanahally, 2018 ).
- How can plant growth regulators improve the growth and productivity of oilseed crops?
- To improve the growth and productivity of oilseed crops under environmental stress, the supplementation of plant growth regulators (PGRs) either through seed or on foliage holds a superior position.
- How do oilseed crops survive heat stress?
- The resilience of oilseed crops under heat stress is led by conventional breeding techniques, including hybridization, artificial selection, and induced mutagenesis; though, these methods are complicated due to the polyploid nature of oil crops and require extensive time and labor investments to accomplish ( Yang et al., 2017 ).
- Is heat stress a threat to oilseed crops?
- Specifically, heat stress is a severe threat to oilseed crops as it impairs the production and quality of the yield; for example, the seed yield decreased up to 39% in camelina and 38% in canola under elevated temperature scenarios ( Jumrani and Bhatia, 2018; Ahmad et al., 2021b ).
- Is engineered oilseed a health promoting crop?
- Meesapyodsuk, D., Ye, S., Chen, Y., Chen, Y., Chapman, R. G., and Qiu, X. (2018). An engineered oilseed crop produces oil enriched in two very long chain polyunsaturated fatty acids with potential health-promoting properties. Met. Eng. 49, 192–200. doi: 10.1016/j.ymben.2018.08.009
- Do total soluble proteins improve heat stress tolerance in oilseed crops?
- Total soluble proteins play a vital role in improving heat stress tolerance in oilseed crops, including camellia and oilseed rape by improving plant water relations and gas exchange properties that help improve vegetative and reproductive growth under high heat stress ( Ahmad et al., 2021b, c ).
