{"title":"Interactive Effects of Immediate and Ancestral Salt Stress on Fitness in Duckweed","authors":"Suzanne L. Chmilar, Lauren Zink, R. Laird","doi":"10.1086/726083","DOIUrl":null,"url":null,"abstract":"Premise of research. Organisms that reproduce asexually must respond to abiotic stresses in their environment while contending with the potential disadvantage of the reduced ability for genetic variation through recombination. Common duckweed (Lemna minor) is an aquatic plant that reproduces predominantly asexually through the budding of ramets. As a freshwater plant, duckweed experiences stress from salt (e.g., NaCl), which detrimentally affects growth, photosynthesis, and cellular processes. We took a demographic approach to examine whether ancestral exposure to salt stress affects the ability of duckweed offspring to tolerate immediate exposure to the same stress. Methodology. We placed three consecutive clonal generations of duckweed in an environment with 2 g L−1 NaCl (nonlethal salt stress) or 0 g L−1 NaCl (control), followed by an additional zero to three generations in the control environment to vary the presence and schedule of ancestral stress. After these treatments, we used the offspring produced as focal plants for the experiment. Half were placed into the salt stress environment, and half were placed in control conditions; focal plants were tracked longitudinally. Pivotal results. Immediate stress decreased fitness as a result of a slowing of reproduction, suggesting a cost of stress tolerance. The effects of ancestral stress, and the interaction of immediate and ancestral stress, were more complex. Specifically, recent ancestral stress induced plants to produce offspring more quickly but with the potential cost of lowered offspring quality. Conclusions. Our results amplify findings that responses to, and fitness consequences of, current stressors can be contingent on past exposure.","PeriodicalId":14306,"journal":{"name":"INTERNATIONAL JOURNAL OF PLANT SCIENCES","volume":"48 1","pages":"577 - 585"},"PeriodicalIF":1.6000,"publicationDate":"2023-06-05","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"INTERNATIONAL JOURNAL OF PLANT SCIENCES","FirstCategoryId":"99","ListUrlMain":"https://doi.org/10.1086/726083","RegionNum":3,"RegionCategory":"生物学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"PLANT SCIENCES","Score":null,"Total":0}
引用次数: 0
Abstract
Premise of research. Organisms that reproduce asexually must respond to abiotic stresses in their environment while contending with the potential disadvantage of the reduced ability for genetic variation through recombination. Common duckweed (Lemna minor) is an aquatic plant that reproduces predominantly asexually through the budding of ramets. As a freshwater plant, duckweed experiences stress from salt (e.g., NaCl), which detrimentally affects growth, photosynthesis, and cellular processes. We took a demographic approach to examine whether ancestral exposure to salt stress affects the ability of duckweed offspring to tolerate immediate exposure to the same stress. Methodology. We placed three consecutive clonal generations of duckweed in an environment with 2 g L−1 NaCl (nonlethal salt stress) or 0 g L−1 NaCl (control), followed by an additional zero to three generations in the control environment to vary the presence and schedule of ancestral stress. After these treatments, we used the offspring produced as focal plants for the experiment. Half were placed into the salt stress environment, and half were placed in control conditions; focal plants were tracked longitudinally. Pivotal results. Immediate stress decreased fitness as a result of a slowing of reproduction, suggesting a cost of stress tolerance. The effects of ancestral stress, and the interaction of immediate and ancestral stress, were more complex. Specifically, recent ancestral stress induced plants to produce offspring more quickly but with the potential cost of lowered offspring quality. Conclusions. Our results amplify findings that responses to, and fitness consequences of, current stressors can be contingent on past exposure.
研究的前提。无性繁殖的生物体必须对其环境中的非生物胁迫作出反应,同时与通过重组降低遗传变异能力的潜在劣势作斗争。普通浮萍(Lemna minor)是一种水生植物,主要通过分株发芽进行无性繁殖。作为一种淡水植物,浮萍会受到盐(如NaCl)的胁迫,这会对其生长、光合作用和细胞过程产生不利影响。我们采用人口统计学方法来研究祖代暴露于盐胁迫是否会影响浮萍后代耐受立即暴露于相同胁迫的能力。方法。我们将3个连续的浮萍无性系置于2 g L−1 NaCl(非致死盐胁迫)或0 g L−1 NaCl(对照)环境中,然后在对照环境中增加0到3个无性系,以改变祖先胁迫的存在和时间。经过这些处理后,我们将产生的后代作为实验的焦点植物。一半放置在盐胁迫环境中,一半放置在对照环境中;对焦点植物进行纵向追踪。关键的结果。直接的压力降低了适应力,这是繁殖速度减慢的结果,表明压力耐受性是有代价的。祖先压力的影响以及直接压力和祖先压力的相互作用更为复杂。具体来说,最近的祖先胁迫诱导植物更快地产生后代,但潜在的代价是后代质量降低。结论。我们的研究结果扩大了对当前压力源的反应和健康后果可能取决于过去的暴露的发现。
期刊介绍:
The International Journal of Plant Sciences has a distinguished history of publishing research in the plant sciences since 1875. IJPS presents high quality, original, peer-reviewed research from laboratories around the world in all areas of the plant sciences. Topics covered range from genetics and genomics, developmental and cell biology, biochemistry and physiology, to morphology and anatomy, systematics, evolution, paleobotany, plant-microbe interactions, and ecology. IJPS does NOT publish papers on agriculture or crop improvement. In addition to full-length research papers, IJPS publishes review articles, including the open access Coulter Reviews, rapid communications, and perspectives. IJPS welcomes contributions that present evaluations and new perspectives on areas of current interest in plant biology. IJPS publishes nine issues per year and regularly features special issues on topics of particular interest, including new and exciting research originally presented at major botanical conferences.
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