Fernández Carla E, Campero Melina, Uvo Cintia, Hansson Lars-Anders
Unidad de Limnología y Recursos Acuáticos Universidad Mayor de San Simón Cochabamba Bolivia.
Division of Water Resources Engineering Lund University Lund Sweden.
Ecol Evol. 2018 Jan 17;8(4):1995-2005. doi: 10.1002/ece3.3792. eCollection 2018 Feb.
Zooplankton have evolved several mechanisms to deal with environmental threats, such as ultraviolet radiation (UVR), and in order to identify strategies inherent to organisms exposed to different UVR environments, we here examine life-history traits of two lineages of . The lineages differed in the UVR dose they had received at their place of origin from extremely high UVR stress at high-altitude Bolivian lakes to low UVR stress near the sea level in temperate Sweden. Nine life-history variables of each lineage were analyzed in laboratory experiments in the presence and the absence of sub-lethal doses of UVR (UV-A band), and we identified trade-offs among variables through structural equation modeling (SEM). The UVR treatment was detrimental to almost all life-history variables of both lineages; however, the historically exposed to higher doses of UVR (HighUV) showed a higher overall fecundity than those historically exposed to lower doses of UVR (LowUV). The total offspring and ephippia production, as well as the number of clutches and number of offspring at first reproduction, was directly affected by UVR in both lineages. Main differences between lineages involved indirect effects that affected offspring production as the age at first reproduction. We here show that organisms within the same species have developed different strategies as responses to UVR, although no increased physiological tolerance or plasticity was shown by the HighUV lineage. In addition to known tolerance strategies to UVR, including avoidance, prevention, or repairing of damages, we here propose a population strategy that includes early reproduction and high fertility, which we show compensated for the fitness loss imposed by UVR stress.
浮游动物已经进化出多种机制来应对环境威胁,比如紫外线辐射(UVR)。为了确定暴露于不同紫外线辐射环境下的生物所固有的策略,我们在此研究了两个谱系的生活史特征。这两个谱系在其起源地所接受的紫外线辐射剂量有所不同,从玻利维亚高海拔湖泊的极高紫外线辐射压力到瑞典温带海平面附近的低紫外线辐射压力。在有和没有亚致死剂量紫外线辐射(UV-A波段)的情况下,在实验室实验中分析了每个谱系的九个生活史变量,并且我们通过结构方程模型(SEM)确定了变量之间的权衡关系。紫外线辐射处理对两个谱系的几乎所有生活史变量都有不利影响;然而,历史上暴露于较高剂量紫外线辐射(高紫外线组)的谱系比历史上暴露于较低剂量紫外线辐射(低紫外线组)的谱系表现出更高的总体繁殖力。在两个谱系中,紫外线辐射直接影响了后代总数、休眠卵产量以及首次繁殖时的窝数和后代数量。谱系之间的主要差异涉及间接影响,这些间接影响通过首次繁殖年龄影响后代产量。我们在此表明,同一物种内的生物已经形成了不同的策略来应对紫外线辐射,尽管高紫外线组谱系并未表现出更高的生理耐受性或可塑性。除了已知的对紫外线辐射的耐受策略,包括避免、预防或修复损伤之外,我们在此提出一种种群策略,该策略包括早期繁殖和高繁殖力,我们证明这补偿了紫外线辐射压力造成的适合度损失。
