Collaborative: How the Timing of Summer Precipitation Affects the Responses of Boreal Forest to Climate Change

合作：夏季降水时间如何影响北方森林对气候变化的响应

• 批准号: 0902180
• 负责人: Elise Pendall
• 金额: $ 15万
• 依托单位: University of Wyoming
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2009
• 资助国家: 美国
• 起止时间: 2009-07-01 至 2013-06-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=0902180&HistoricalAwards=false
• 关键词: Collaborative; How; Timing; Summer; Precipitation

This award is funded under the American Recovery and Reinvestment Act of 2009 (Public Law 111-5).There is increasing evidence that ecological processes at high latitude are just as sensitive to the timing of events as to their magnitudes. In the boreal forest, moisture availability in summer affects both tree growth and the fire regime. Summers are brief and seasonal transitions rapid, so even slight shifts in the timing of precipitation patterns can have large impacts. One of the most striking, seasonal phenomena in the Alaskan boreal forest is the onset of frequent frontal storms in late summer. This event usually comes in mid-July but is delayed into August or even September in some years. Summers when the rains are delayed have a greater chance of being mega-fires seasons when 1.6 million ha burn. This project will test the hypothesis that shifts in the seasonality of warm-season precipitation could be a key driver of the boreal forest?s responses to future climate changes. The effect of late-summer precipitation on tree growth and fire in Alaska will be quantified in two ways: First, by analyzing interactions between climate, fire, and tree growth (specifically ring-width, ring density, and wood-isotope composition); second, by analyzing fire-climate relationships using a new statistical approach. Together, these results will improve parameterization of the forest model ALFRESCO, which will then be used to test additional hypotheses about the interconnections among future climates, tree growth, fire, and their collective feedbacks to the global climate system. The shifting seasonality of water availability during the warm season may be of key importance in determining how the global boreal forest responds to future climate changes. The multidisciplinary research proposed here represents a new approach to answering a novel question. No one has examined the impacts of seasonal shifts in the timing and magnitude of warm-season precipitation on vegetation distribution, tree growth, and fire regime in the boreal forest before. This will be the first time that tree rings from deciduous species in the boreal forest are used to describe past variations in summer rainfall through measurements of ring-width, late-wood density, and wood isotopes. The generalized boosting technique we propose using has not been previously applied to climate-fire records. The results of these tree-ring and statistical analyses will improve parameterization of the ALFRESCO forest model and allow us to explore the interactions among components of this part of the Arctic system with greater realism.

该奖项是根据2009年美国复苏和再投资法案（公法111-5）资助的。越来越多的证据表明，高纬度地区的生态过程对事件的时间和规模同样敏感。在北方森林中，夏季的水分供应影响树木的生长和火灾状况。夏季短暂，季节转换迅速，因此即使是降水模式时间上的微小变化也会产生巨大影响。阿拉斯加北部森林中最引人注目的季节性现象之一是夏末频繁的锋面风暴。这一事件通常发生在7月中旬，但在某些年份会推迟到8月甚至9月。降雨推迟的夏季更有可能成为160万公顷燃烧的特大火灾季节。这个项目将测试的假设，在暖季降水的季节性变化可能是北方森林的关键驱动力？应对未来气候变化。夏末降水对阿拉斯加树木生长和火灾的影响将以两种方式量化：第一，通过分析气候，火灾和树木生长（特别是年轮宽度，年轮密度和木材同位素组成）之间的相互作用;第二，通过使用新的统计方法分析火灾与气候的关系。总之，这些结果将改善森林模型ALFRESCO的参数化，然后将用于测试未来气候，树木生长，火灾及其对全球气候系统的集体反馈之间的相互联系的其他假设。在温暖的季节里，水资源的季节性变化可能是决定全球北方森林如何应对未来气候变化的关键。这里提出的多学科研究代表了一种新的方法来回答一个新的问题。以前没有人研究过暖季降水的时间和幅度的季节性变化对北方森林植被分布、树木生长和火灾状况的影响。这将是第一次，树木年轮从落叶树种在北方森林被用来描述过去的变化，在夏季降雨量通过测量环宽，晚材密度，木材同位素。我们建议使用的广义提升技术以前没有被应用到气候火灾记录。这些树木年轮和统计分析的结果将改善ALFRESCO森林模型的参数化，并使我们能够更现实地探索北极系统这一部分组成部分之间的相互作用。