Collaborative Research: Quantification of Dominant Heat Fluxes in Streams and Rivers in Arctic Alaska
合作研究:阿拉斯加北极溪流和河流中主要热通量的量化
基本信息
- 批准号:1204220
- 负责人:
- 金额:$ 46.94万
- 依托单位:
- 依托单位国家:美国
- 项目类别:Standard Grant
- 财政年份:2012
- 资助国家:美国
- 起止时间:2012-07-15 至 2018-06-30
- 项目状态:已结题
- 来源:
- 关键词:
项目摘要
Understanding the impacts of climate change on freshwater ecosystems is highly dependent on quantifying the associated changes in instream temperatures. However, this can be complicated because these temperatures are related to both changing meteorology (e.g., air temperature and precipitation) and hydrology (e.g., instream flows and lateral inflows). The ability to predict climate related changes on instream thermal regimes in Arctic streams is limited by the minimal understanding of key processes and the availability of data to quantify heat fluxes. The investigators hypothesize that the dominant heat fluxes within Arctic streams are similar to those in temperate climates but that the relative magnitude of the heat fluxes differ, and that quantification of lateral inflows is key in predicting water temperatures. To test this hypothesis, they would address three research questions regarding 1) the changing importance of key heat fluxes throughout the warm season; 2) the importance of lateral inflows to understanding instream temperature regimes; and 3) the sensitivity of instream temperatures to climate change drivers. To answer the first two questions, they would: quantify heat fluxes using data collection and modeling efforts in two representative arctic river types (alluvial and peat lined, beaded) near Toolik Lake, Alaska; adapt instream temperature models based on prior temperate zone hydrologic research to determine which heat fluxes are necessary to predict the spatial and temporal variability of Arctic instream temperatures; and use differential gauging at the reach and basin scales, along with distributed instream temperatures and other measures, to quantify hillslope-stream connectivity and lateral inflows. Given these results, they would address question 3 by conducting sensitivity analyses of anticipated climatic variability to identify the key hydrologic and meteorological drivers of instream temperature regimes. Ultimately, they would develop an Arctic-specific temperature model that provides predictive capabilities of instream temperatures. In the course of this research, the investigators would develop related curriculum exercises in close collaboration with high school science teachers in both Utah and Alaska, and subsequently make these available nationally. Graduate and undergraduate students would participate in the field and analytical work, and the investigators would share their results with local communities in Alaska who depend on aquatic resources for food.
了解气候变化对淡水生态系统的影响在很大程度上取决于对河流温度的相关变化进行量化。然而,这可能很复杂,因为这些温度既与不断变化的气象(例如,气温和降水)有关,也与水文学(例如,河流流量和侧向流入)有关。由于对关键过程的最低了解,以及缺乏量化热通量的数据,预测北极流内水系热状况与气候有关的变化的能力受到限制。研究人员假设,北极溪流中的主要热通量与温带气候中的热通量相似,但热通量的相对大小不同,侧向流入的量化是预测水温的关键。为了验证这一假设,他们将解决以下三个研究问题:1)整个暖季关键热通量的重要性不断变化;2)横向流入对了解河流温度状况的重要性;以及3)河流温度对气候变化驱动因素的敏感性。为了回答前两个问题,他们将:利用数据收集和建模工作,对阿拉斯加图利克湖附近两种典型的北极河流(冲积河和泥炭河、串珠河)的热通量进行量化;调整根据先前温带水文学研究得出的河流间水温模型,以确定哪些热通量是预测北极水系温度空间和时间变化所必需的;以及在河段和流域一级进行差额测量,并采用分布的水系温度和其他措施,以量化山坡与河流的连通性和横向流入。鉴于这些结果,他们将通过对预期气候变化进行敏感性分析来解决问题3,以确定河流温度制度的主要水文和气象驱动因素。最终,他们将开发一种特定于北极的温度模型,提供对河流温度的预测能力。在这项研究的过程中,研究人员将与犹他州和阿拉斯加州的高中科学教师密切合作,开发相关的课程练习,并随后在全国范围内提供这些练习。研究生和本科生将参与实地和分析工作,调查人员将与阿拉斯加依赖水产资源作为食物的当地社区分享他们的结果。
项目成果
期刊论文数量(0)
专著数量(0)
科研奖励数量(0)
会议论文数量(0)
专利数量(0)
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Bethany Neilson其他文献
Seasonal water and salt cycling in the Great Salt Lake after opening the new causeway breach
新堤道决口后大盐湖的季节性水盐循环
- DOI:
10.1016/j.ejrh.2025.102332 - 发表时间:
2025-06-01 - 期刊:
- 影响因子:5.000
- 作者:
Diana Dunn;Brian M. Crookston;Colin Phillips;Som Dutta;Bethany Neilson - 通讯作者:
Bethany Neilson
Groundwater dominates snowmelt runoff and controls streamflow efficiency in the western United States
在美国西部,地下水主导着融雪径流并控制着河流流量效率。
- DOI:
10.1038/s43247-025-02303-3 - 发表时间:
2025-05-03 - 期刊:
- 影响因子:8.900
- 作者:
Paul D. Brooks;D. Kip Solomon;Stephanie Kampf;Sara Warix;Carleton Bern;David Barnard;Holly R. Barnard;Gregory T. Carling;Rosemary W. H. Carroll;Jon Chorover;Adrian Harpold;Kathleen Lohse;Fabiola Meza;Jennifer McIntosh;Bethany Neilson;Megan Sears;Margaret Wolf - 通讯作者:
Margaret Wolf
Bethany Neilson的其他文献
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{{ truncateString('Bethany Neilson', 18)}}的其他基金
Collaborative Research: Quantifying Watershed Dynamics in Snow-Dominated Mountainous Karst Watersheds Using Hybrid Physically Based and Deep Learning Models
合作研究:使用基于物理和深度学习的混合模型量化以雪为主的山地喀斯特流域的流域动态
- 批准号:
2043363 - 财政年份:2021
- 资助金额:
$ 46.94万 - 项目类别:
Standard Grant
Collaborative Research: The effects of river regulation on lateral and integrated longitudinal mass and energy transfers in coupled terrestrial-aquatic systems
合作研究:河流调节对陆地-水生耦合系统中横向和综合纵向质量和能量转移的影响
- 批准号:
1343861 - 财政年份:2014
- 资助金额:
$ 46.94万 - 项目类别:
Continuing Grant
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