Collaborative Research: Nutrient co-limitation in young and mature northern hardwood forests

合作研究：北方硬木幼林和成熟林的养分共同限制

• 批准号: 0949324
• 负责人: Ruth Yanai
• 金额: $ 37.6万
• 依托单位: SUNY College of Environmental Science and Forestry
• 依托单位国家: 美国
• 项目类别: Continuing Grant
• 财政年份: 2010
• 资助国家: 美国
• 起止时间: 2010-07-01 至 2017-06-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=0949324&HistoricalAwards=false
• 关键词: Collaborative; Research; Nutrient; co; limitation

Nutrient Co-limitation in Young and Mature Northern Hardwood ForestsTemperate forests have long been thought to be nitrogen (N) limited, but chronic N deposition from air pollution should reduce N limitation over time, and theory suggests that ecosystem productivity should be co-limited by multiple nutrients. Experimental tests of N vs. phosphorus (P) limitation in temperate forest systems are lacking. This study will combine modeling and field studies to explore nutrient limitation in relation to successional change in managed forest ecosystems. An improved understanding of ecosystem optimization of resource use is important to forest management, environmental protection, and basic scientific knowledge. Balanced nutrient cycling is essential to maintaining forest sustainability, and scientists and managers at the White Mountain National Forest will evaluate silvicultural practices in light of results from the proposed research. For example, their forest management plans require justifying intensive harvest removals in terms of the ability of forests to acquire nutrients for regrowth. Feedbacks such as the biological enhancement of mineral weathering when nutrients are limiting are clearly relevant to this appraisal.The Multi-Element Limitation (MEL) model includes P as well as N, carbon, light, and water, and is being applied to simulate succession in northern hardwood forests. Using nutrient additions of N alone in some forest stands, P alone in some forest stands, N+P in some forest stands, in replicated stands of three ages (~20, 30, and 100 years) at the Bartlett Experimental Forest in New Hampshire, the investigators will test the patterns of resource limitation. The model predicts a greater response of aboveground productivity to N+P than N or P alone. In older stands, it predicts a greater response to N than to P addition, but in younger stands, the model suggests that the supply of N from detritus should be sufficient to create P limitation.

北方幼龄和成熟阔叶林的养分共限制长期以来，温度林一直被认为是氮(N)受限的，但随着时间的推移，空气污染造成的长期N沉降应该会减少N的限制，理论认为生态系统的生产力应该受到多种养分的共同限制。在温带森林系统中缺乏N-P限制的实验测试。这项研究将结合模拟和实地研究，探索管理森林生态系统中养分限制与演替变化的关系。提高对资源利用的生态系统优化的理解对森林管理、环境保护和基础科学知识非常重要。平衡的养分循环对维持森林的可持续性至关重要，白山国家森林的科学家和管理人员将根据拟议研究的结果评估营林实践。例如，他们的森林管理计划要求根据森林获取养分以重新生长的能力来证明密集的收获转移是合理的。多元素限制(MEL)模型包括磷、氮、碳、光和水，正被应用于模拟北方阔叶林的演替。在新罕布夏州巴特利特实验林的三年生(约20年、30年和100年)的重复林分中，研究人员将使用一些林分单独添加N、P单独添加、一些林分添加N+P来检验资源限制模式。该模型预测了地上生产力对N+P的响应比单独N或P更大。在年龄较大的林分中，模型预测对N的反应大于对P添加的反应，但在较年轻的林分中，该模型表明碎屑中的N供应应该足以产生P限制。