Leicht Katja, Seppälä Katri, Seppälä Otto
Eawag, Swiss Federal Institute of Aquatic Science and Technology, 8600, Duebendorf, Switzerland.
Department of Biological and Environmental Science, University of Jyvaskyla, 40014, Jyvaskyla, Finland.
BMC Evol Biol. 2017 Jun 15;17(1):140. doi: 10.1186/s12862-017-0988-x.
On-going global climate change poses a serious threat for natural populations unless they are able to evolutionarily adapt to changing environmental conditions (e.g. increasing average temperatures, occurrence of extreme weather events). A prerequisite for evolutionary change is within-population heritable genetic variation in traits subject to selection. In relation to climate change, mainly phenological traits as well as heat and desiccation resistance have been examined for such variation. Therefore, it is important to investigate adaptive potential under climate change conditions across a broader range of traits. This is especially true for life-history traits and defences against natural enemies (e.g. parasites) since they influence organisms' fitness both directly and through species interactions. We examined the adaptive potential of fitness-related traits and their responses to heat waves in a population of a freshwater snail, Lymnaea stagnalis. We estimated family-level variation and covariation in life history (size, reproduction) and constitutive immune defence traits [haemocyte concentration, phenoloxidase (PO)-like activity, antibacterial activity of haemolymph] in snails experimentally exposed to typical (15 °C) and heat wave (25 °C) temperatures. We also assessed variation in the reaction norms of these traits between the treatments.
We found that at the heat wave temperature, snails were larger and reproduced more, while their immune defence was reduced. Snails showed high family-level variation in all examined traits within both temperature treatments. The only negative genetic correlation (between reproduction and antibacterial activity) appeared at the high temperature. However, we found no family-level variation in the responses of most examined traits to the experimental heat wave (i.e. largely parallel reaction norms between the treatments). Only the reduction of PO-like activity when exposed to the high temperature showed family-level variation, suggesting that the cost of heat waves may be lower for some families and could evolve under selection.
Our results suggest that there is genetic potential for adaptation within both thermal environments and that trait evolution may not be strongly affected by trade-offs between them. However, rare differences in thermal reaction norms across families indicate limited evolutionary potential in the responses of snails to changing temperatures during extreme weather events.
持续的全球气候变化对自然种群构成严重威胁,除非它们能够在进化上适应不断变化的环境条件(例如平均温度升高、极端天气事件的发生)。进化变化的一个先决条件是种群内部在受选择的性状上存在可遗传的遗传变异。与气候变化相关的,主要针对物候性状以及耐热性和耐旱性进行了此类变异研究。因此,在更广泛的性状范围内研究气候变化条件下的适应潜力很重要。对于生活史性状和抵御天敌(如寄生虫)的能力而言尤其如此,因为它们直接或通过物种间相互作用影响生物体的适应性。我们研究了淡水蜗牛椎实螺种群中与适应性相关的性状的适应潜力及其对热浪的反应。我们估计了在实验中暴露于典型温度(15℃)和热浪温度(25℃)的蜗牛的生活史(大小、繁殖)和组成性免疫防御性状[血细胞浓度、酚氧化酶(PO)样活性、血淋巴的抗菌活性]在家族水平上的变异和协变。我们还评估了这些性状在不同处理之间反应规范的变异。
我们发现,在热浪温度下,蜗牛体型更大且繁殖更多,但其免疫防御能力下降。在两种温度处理下,蜗牛在所有检测性状上都表现出较高的家族水平变异。唯一的负遗传相关性(繁殖与抗菌活性之间)出现在高温下。然而,我们发现大多数检测性状对实验热浪的反应在家族水平上没有变异(即不同处理之间的反应规范在很大程度上是平行的)。只有暴露于高温时PO样活性的降低表现出家族水平变异,这表明热浪对某些家族的代价可能较低,并且可能在选择作用下进化。
我们的结果表明,在两种热环境中都存在适应的遗传潜力,并且性状进化可能不会受到它们之间权衡的强烈影响。然而,不同家族在热反应规范上的罕见差异表明,蜗牛在极端天气事件中对温度变化的反应的进化潜力有限。
