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作者:Stokstad, Erik
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作者:Yadav, Avilash Singh; Sureshkumar, Sridevi; Sinha, Alok Krishna; Balasubramanian, Sureshkumar
作者单位:Monash University; Cornell University; Cornell University; Department of Biotechnology (DBT) India; National Institute of Plant Genome Research (NIPGR)
摘要:Plants are highly sensitive to temperature, and climate change is predicted to have negative impacts on agricultural productivity. Warming temperatures, coupled with a growing population, present a substantial challenge for food security and motivate research to understand how plants sense and respond to changes in temperature. Here, we synthesize our current understanding of temperature sensing and response in plants. We outline how temperature cues are integrated into preexisting signaling c...
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作者:Pathak, Sushmita
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作者:Parlange, Marc B.
作者单位:University of Rhode Island
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作者:Rotenberg, A.; Gunning, M.; Nadler, R. Magistro; Kiss, Z. H. T.; Illes, J.
作者单位:University of British Columbia; University of British Columbia; University of British Columbia; University of Calgary
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作者:Laine, Anna-Liisa; Leino, Sara
作者单位:University of Helsinki
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作者:Harris, Michael S.
作者单位:Southern Methodist University
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作者:Wadman, Meredith
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作者:Bernacchi, Carl J.; Long, Stephen P.; Ort, Donald R.
作者单位:United States Department of Agriculture (USDA); University of Illinois System; University of Illinois Urbana-Champaign; University of Illinois System; University of Illinois Urbana-Champaign; University of Illinois System; University of Illinois Urbana-Champaign
摘要:Continued greenhouse gas emissions will accelerate global warming and intensity of heat waves, which already harm crop productivity. From the stability of key enzymes to canopy processes, photosynthesis is affected by temperature. All crops suffer declines in photosynthetic rate when temperatures cross critical thresholds, with irreversible losses typically occurring above 40 degrees to 45 degrees C. Protective measures within plants can be induced by growth at elevated temperatures but not fr...
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作者:Blumer, L. M.; Burskaia, V.; Artiushin, I.; Saha, J.; Garcia, J. Camacho; Jimenez, F. Campuzano; Hooft van der Huysdynen, A.; Elkin, J.; Fischer, B.; Van Houtte, N.; Zhou, C.; Gresham, S.; Malinsky, M.; Linderoth, T.; Sawasawa, W.; Vernaz, G.; Bista, I.; Hickey, A.; Kucka, M.; Louzada, S.; Zatha, R.; Yang, F.; Rusuwa, B.; Santos, M. E.; Chan, Y. F.; Joyce, D. A.; Boehne, A.; Miska, E. A.; Ngochera, M.; Turner, G. F.; Durbin, R.; Svardal, H.
作者单位:University of Cambridge; University of Antwerp; University of Cambridge; Wellcome Trust Sanger Institute; University of Bern; Michigan State University; Leibniz Association; Senckenberg Gesellschaft fur Naturforschung (SGN); Max Planck Society; Eberhard Karls University of Tubingen; University of Malawi; Shandong University of Technology; University of Groningen; University of Hull; University of Cambridge; Bangor University; Naturalis Biodiversity Center; University of Basel; University of Cologne; University of Tras-os-Montes & Alto Douro; BIOISI; Universidade de Lisboa
摘要:Chromosomal inversions can contribute to adaptive speciation by linking coadapted alleles. By querying 1375 genomes of the species-rich Malawi cichlid fish radiation, we discovered five large inversions segregating in the benthic subradiation that each suppress recombination over more than half a chromosome. Two inversions were transferred from deepwater pelagic Diplotaxodon through admixture, whereas the others established early in the deep benthic clade. Introgression of haplotypes from line...
