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Table_1_Heat stress during seed development leads to impaired physiological function and plasticity in seed oil accumulation in Camelina sativa.xlsx (13.13 kB)

Table_1_Heat stress during seed development leads to impaired physiological function and plasticity in seed oil accumulation in Camelina sativa.xlsx

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posted on 2023-11-24, 04:05 authored by Satya Swathi Nadakuduti, Larissa C. Laforest, Megan Tachev, Amanda N. Decker, Andrew Ogolla Egesa, Ashkon S. Shirazi, Kevin Begcy, Paul J. Sarnoski, C. Robin Buell

Camelina sativa, a member of the Brassicaceae, is a low-cost, renewable oilseed crop that produces seeds up to 40% oil by weight with high potential for use in food, feed, and biofuel applications. Camelina seeds contain high levels of the fatty acids α-linolenic acid (C18:3), linoleic acid (C18:2), oleic acid (C18:1), and gondoic acid (C20:1), which have high nutritional and industrial value. The impact of climate change, especially increased frequency and amplitude of heat waves, poses a serious threat to crop productivity. In this study, we evaluated the effect of elevated temperatures post-anthesis on the developing seeds of C. sativa and performed physiological, morphological, and chemical characterizations at 7, 14, 21, and 28 days post-anthesis (DPA), as well as at maturity. While the seed oil accumulation peaked at 21 DPA under control conditions, reaching 406mg/g dry weight, under heat stress it was only 186mg/g. Physiologically, transpiration rate (E) and internal CO2 concentration (Ci) increased between 2 to 9 days post-stress imposition and overall net photosynthesis was impaired. Seed yield, seed weight, and oil content reduced by 84.5%, 38.5% and 54.1% respectively. We demonstrate that post-anthesis heat stress causes severe yield losses and developmental plasticity in fatty acid accumulation in oilseeds.

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