利用生态功能方法评估邓杰内斯河的功能和最佳管理实践(bmp)的有效性。

Eric S Hall, Robert K Hall, Sherman Swanson, Wilson Yee, Don Kozlowski, Michael J Philbin, Daniel T Heggem, John Lin, Joan L Aron, Robin J Schafer, David Guiliano, Eric Wilson
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引用次数: 0

摘要

有效的河流和湿地最佳管理措施(BMPs)将与生态功能相关的物理过程恢复到其适当功能状态(PFC,即在不考虑经济、行政或社会约束的情况下,河岸地区可达到的最高生态状态)。生态功能将河流监测和管理联系起来,减轻生态系统退化的原因,加强恢复。生态功能方法支持许多生态系统服务的可持续管理,包括水质、水稳定性(含水层补给)以及鱼类和野生动物栖息地。1993年森林生态系统管理评价小组(FEMAT)的报告将邓杰内斯河列为一级关键分水岭,指出流域是生态系统管理的逻辑空间单位,流域在物种管理和了解物理过程的相互依存方面很重要。流域在空间尺度上可以观察到物理和生物干扰,并且可以很容易地评估管理限制和恢复目标和战略的规划选择。美国林务局(USFS)为中邓杰内斯河制定了一项管理战略,并在20世纪90年代将上邓杰内斯河列为泥沙受损,这促使美国林务局改变了土地管理实践。由于粪便大肠菌群污染,下邓杰内斯河和海湾被列为受损地区。作为流域适应性管理计划的一部分,评估和监测生态系统功能(植被、水文、土壤和地貌)的驱动因素,并实施bmp以增加生态功能,将改善水生栖息地和水质。大多数bmp,如总最大日负荷(tmdl),试图通过减少到达受影响水体的外部污染物的数量来改善水质,但不注重改善流域功能。适当功能条件(PFC)方法用于检查湿地和溪流的状况,并为在流域恢复中使用的定量方法(例如TMDL,遥感)提供指导。改善流域功能是一种BMP,可以促进水、养分、沉积物和其他物质的流动,并改善栖息地质量。在遥感、tmdl和PFC方法的促进下,利用改进的流域功能作为BMP,是比单独使用tmdl更有效的减少流域风险的手段。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Assessing Dungeness River Functionality and Effectiveness of Best Management Practices (BMPs) Using an Ecological Functional Approach.

Assessing Dungeness River Functionality and Effectiveness of Best Management Practices (BMPs) Using an Ecological Functional Approach.

Assessing Dungeness River Functionality and Effectiveness of Best Management Practices (BMPs) Using an Ecological Functional Approach.

Assessing Dungeness River Functionality and Effectiveness of Best Management Practices (BMPs) Using an Ecological Functional Approach.

Effective stream and wetland Best Management Practices (BMPs) restore the physical processes associated with ecological functions to their Proper Functioning Condition (PFC, i.e., the highest attainable ecological status of a riparian area without consideration of economic, administrative, or social constraints). Ecological functions connect stream monitoring and management to mitigate the causes of ecosystem degradation and enhance restoration. The ecological function approach supports sustainable management of many ecosystem services including water quality, water stability (aquifer recharge), and fish and wildlife habitats. The 1993 Forest Ecosystem Management Assessment Team (FEMAT) report listed the Dungeness River as a Tier 1 key watershed, noted that watersheds are the logical spatial unit for ecosystem management, and that watersheds are important in species management, and understanding the interdependence of physical processes. Watersheds are at the spatial scale where physical and biological disturbances can be observed, and where management constraints and planning options for restoration objectives and strategies can be readily assessed. The US Forest Service (USFS) developed a management strategy for the Middle Dungeness River, and in the 1990s, the Upper Dungeness River was listed as impaired due to sediment, which initiated a US Forest Service change to land management practices. The Lower Dungeness River and bay are listed as impaired due to fecal coliform contamination. Assessing and monitoring the drivers of ecosystem function (vegetation, hydrology, soil, and landform) as part of a watershed adaptive management plan, and implementing BMPs to increase ecological functions, will improve aquatic habitat and water quality. Most BMPs, such as Total Maximum Daily Loads (TMDLs), attempt to improve water quality by reducing the amount of external pollutants reaching the impacted waterbodies, but do not focus on improving the watershed functions. The Proper Functioning Condition (PFC) approach is used to examine the condition of wetlands and streams and provide guidance for quantitative approaches (e.g., TMDL, remote sensing) used in watershed restoration. Improving watershed functions is a BMP that facilitates increased flows of water, nutrients, sediment, and other materials, and improves habitat quality. Using improved watershed functions as a BMP, facilitated by the use of remote sensing, TMDLs, and the PFC methodology is a more effective means of reducing risks across a watershed than by using TMDLs alone.

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