DATA for “Warming winters in lakes: Later ice onset promotes consumer overwintering and shapes springtime planktonic food webs” DOI: org/10.1073/pnas.2114840118

NOTE: -Please use the latest version of the dataset (now V6), which includes info re. units and better corresponds to the code. Additional updates may be made over time. -Details re. calculations and conversions are provided in the Methods/Appendix of the paper.-Contact info: mphebert4@gmail.com ABSTRACT: Global climate warming is causing the loss of freshwater ice around the Northern Hemisphere. Although the timing and duration of ice covers are known to regulate ecological processes in seasonally ice-covered ecosystems, the consequences of shortening winters for freshwater biota are poorly understood owing to the scarcity of under-ice research. Here, we present one of the first in-lake experiments to postpone ice-cover onset (by ≤21 d), thereby extending light availability (by ≤40 d) in early winter, and explicitly demonstrate cascading effects on pelagic food web processes and phenologies. Delaying ice-on elicited a sequence of events from winter to spring: 1) relatively greater densities of algal resources and primary consumers in early winter; 2) an enhanced prevalence of winter-active (overwintering) consumers throughout the ice-covered period, associated with augmented storage of high-quality fats likely due to a longer access to algal resources in early winter; and 3) an altered trophic structure after ice-off, with greater initial springtime densities of overwintering consumers driving stronger, earlier top-down regulation, effectively reducing the spring algal bloom. Increasingly later ice onset may thus promote consumer overwintering, which can confer a competitive advantage on taxa capable of surviving winters upon ice-off; a process that may diminish spring food availability for other consumers, potentially disrupting trophic linkages and energy flow pathways over the subsequent open-water season. In considering a future with warmer winters, these results provide empirical evidence that may help anticipate phenological responses to freshwater ice loss and, more broadly, constitute a case of climate-induced cross-seasonal cascade on realized food web processes.

注意事项：- 请使用该数据集的最新版本（当前为V6），该版本包含单位相关信息，且与代码的匹配度更高。后续可能会进行额外更新。- 有关计算与转换的详细说明，请参见论文的“方法/附录”章节。- 联系方式：mphebert4@gmail.com 摘要：全球气候变暖正导致北半球周边的淡水冰体逐步消融。尽管学界已明确，冰盖的形成时间与持续时长会调控季节性覆冰淡水生态系统的生态过程，但由于冰下研究的匮乏，冬季缩短对淡水生物群落的影响仍未得到充分认知。本研究开展了首批湖泊原位实验之一，将冰盖形成起始时间推迟至多21天，从而将初冬的光照可利用时长延长至多40天，并明确证明了其对浮游食物网（pelagic food web）过程与物候的级联效应。推迟冰期引发了从冬季到春季的一系列连锁反应：1）初冬时节藻类资源与初级消费者的密度相对更高；2）在整个覆冰期内，冬季活跃（越冬，overwintering）消费者的占比显著提升，这大概率与初冬更长的藻类资源获取周期带来的优质脂肪储备增加相关；3）冰消后营养结构发生改变，越冬消费者的春季初始密度更高，由此驱动了更强且更早的自上而下调控，有效抑制了春季藻类水华。因此，冰期起始时间愈发延后可能会促进消费者的越冬行为，这将为能够在冰消后存活的类群带来竞争优势；该过程可能会减少其他消费者在春季的食物可获得性，进而可能在后续的敞水期破坏营养联系与能量流动路径。在展望暖冬未来的背景下，本研究结果提供了实证依据，有助于预测淡水冰体消失带来的物候响应，更广泛而言，本研究也为气候诱导的跨季节级联效应影响实际食物网过程提供了一个典型案例。