Out of sight out of mind? Implications of winter vs. summer conditions for lakes on the northern Great Plains.

眼不见，心不烦？

• 批准号: 327507-2013
• 负责人: Wissel, Bjoern
• 金额: $ 1.6万
• 依托单位: University of Regina
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2015
• 资助国家: 加拿大
• 起止时间: 2015-01-01 至 2016-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=572037
• 关键词: Out; sight; out; mind; Implications

Lakes across the Canadian prairies are excellent model systems to advance our understanding of climate effects on lake food-webs. Together, regional geomorphology and climate result in a tremendous diversity in morphological, physical and chemical lake characteristics on a small spatial scale. As a result, taxonomic richness, food-web complexity and species assemblages vary dramatically among lakes. Additionally, recently intensified land-use can have detrimental impacts on lakes, including toxic algal blooms in the summer and fish kills in the winter. A unique and rapidly developing theory is that the state of lakes in the winter is critically important in determining the dynamics of food webs in the summer ("winter control"). The first goal of this project is to quantify the impacts of winter conditions on food-web structure in these lakes and develop novel quantitative models to predict the risk of winterkill. Second, we will continue our long-term lake surveys to contrast the importance of summer vs. winter conditions for current climate regimes, and experimentally test their respective impacts on zooplankton assemblages. Third, we will evaluate long-term changes by comparing reconstructed productivity and food-web patterns over the past 100 yrs with simultaneous changes in climate and land-use. Ultimately, based on the here established associations of food-web composition with climate and land-use, we will use existing climate change scenarios to predict future conditions in these lakes. The results of this study will be instrumental in improving and adapting management approaches for these lakes, such as water-quality protection and fisheries. Furthermore, this study will also generate important new insights into the functioning of freshwater lakes and their vulnerability to climate change. While prairie lakes can be extreme in respect to environmental conditions and are more sensitive to climate change, the biota in freshwater lakes should respond similarly to changes in hydrology and water chemistry, particularly as there are broad taxonomic similarities to boreal lakes.

横跨加拿大大草原的湖泊是很好的模型系统，以促进我们对湖泊食物网的气候影响的理解。区域地貌和气候共同导致了小空间尺度上湖泊形态、物理和化学特征的巨大多样性。因此，湖泊之间的分类丰富性、食物网复杂性和物种组合差异很大。此外，最近土地使用的加剧可能对湖泊产生有害影响，包括夏季有毒藻类大量繁殖和冬季鱼类死亡。一个独特而迅速发展的理论是，冬季湖泊的状态对决定夏季食物网的动态至关重要（“冬季控制”）。该项目的第一个目标是量化冬季条件对这些湖泊食物网结构的影响，并开发新的定量模型来预测冬杀的风险。其次，我们将继续进行长期的湖泊调查，以对比夏季与冬季条件对当前气候状况的重要性，并通过实验测试它们各自对浮游动物群落的影响。第三，我们将通过比较过去100年重建的生产力和食物网模式与气候和土地利用的同时变化来评估长期变化。最后，基于这里建立的食物网组成与气候和土地利用的关联，我们将使用现有的气候变化情景来预测这些湖泊的未来状况。这项研究的结果将有助于改善和调整这些湖泊的管理方法，如水质保护和渔业。此外，这项研究还将对淡水湖的功能及其对气候变化的脆弱性产生重要的新见解。虽然草原湖泊在环境条件方面可能极端，对气候变化更敏感，但淡水湖泊中的生物群对水文和水化学变化的反应应该类似，特别是因为它们与北方湖泊在分类学上有广泛的相似之处。