The Metzger marsh restoration—a vegetation-centric look after 27 years

IF 2.4 3区环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES Journal of Great Lakes Research Pub Date : 2024-02-10 DOI:10.1016/j.jglr.2024.102309

Douglas A. Wilcox , Kurt P. Kowalski , Alexandra Bozimowski

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Abstract

We investigated wetland vegetation before, during, and after dike construction at the Metzger Marsh project in western Lake Erie, which was designed to restore a 300-ha wetland that had been degraded following the loss of a protective barrier beach. A dike was constructed in 1995 to replace the function of the eroded barrier beach, but it contained a water-control structure to allow managed hydrologic connection to the lake. The control structure contained a fish passageway to allow movement of fish across the dike, while restricting entry of large common carp. Color-infrared aerial photos from project start in 1994 through 2010 (and 2022) were analyzed to track vegetation changes, and major vegetation types were sampled quantitatively. Drawdown of water levels in 1996 after dike construction elicited a response of mudflat species from the seed bank, as well as tree seedlings. Over half of the marsh was vegetated then and in subsequent years. The water-control structure was opened in 1998, and by 2000, invasive Phragmites australis had gained dominance. Most trees were eventually eliminated by herbicide treatment and flooding, and extent of Phragmites was reduced by management actions. Typha spp. and emergents Sagittaria latifolia and Schoenoplectus tabernaemontani became dominant by 2022. This restoration project increased habitat values for fish and wildlife; it also provided lessons for future projects on lands managed by multiple agencies with differing missions. More importantly, it showed that long-term monitoring data are critical for assessing wetland restoration projects and guiding management decisions.

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梅兹格沼泽修复--27 年后以植被为中心的面貌

我们在伊利湖西部的梅茨格沼泽项目中调查了筑堤前、筑堤期间和筑堤后的湿地植被，该项目旨在恢复一片 300 公顷的湿地，这片湿地因失去保护性隔离滩而退化。1995 年修建了一条堤坝，以取代被侵蚀的隔离滩的功能，但堤坝中包含一个水控制结构，以便与湖泊进行有管理的水文连接。控制结构包含一个鱼类通道，允许鱼类穿过堤坝，同时限制大型鲤鱼进入。对从 1994 年项目开始到 2010 年（以及 2022 年）的彩色红外航空照片进行了分析，以跟踪植被变化，并对主要植被类型进行了定量采样。1996 年筑堤后水位下降，引起了种子库中泥滩物种以及树苗的反应。在当时和随后的几年里，超过一半的沼泽地都长满了植被。控水结构于 1998 年启用，到 2000 年，外来入侵的 Pragmites australis 已占据主导地位。通过除草剂处理和洪水冲刷，大部分树木最终被清除，Phragmites 的范围也因管理措施而缩小。到 2022 年，Typha spp.和萌生植物 Sagittaria latifolia 和 Schoenoplectus tabernaemontani 已成为优势植物。该恢复项目提高了鱼类和野生动物栖息地的价值，同时也为今后在由多个机构管理、任务各不相同的土地上开展项目提供了借鉴。更重要的是，它表明长期监测数据对于评估湿地恢复项目和指导管理决策至关重要。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Great Lakes Research 生物-海洋与淡水生物学

CiteScore

5.10

自引率

13.60%

发文量

178

审稿时长

6 months

期刊介绍： Published six times per year, the Journal of Great Lakes Research is multidisciplinary in its coverage, publishing manuscripts on a wide range of theoretical and applied topics in the natural science fields of biology, chemistry, physics, geology, as well as social sciences of the large lakes of the world and their watersheds. Large lakes generally are considered as those lakes which have a mean surface area of >500 km2 (see Herdendorf, C.E. 1982. Large lakes of the world. J. Great Lakes Res. 8:379-412, for examples), although smaller lakes may be considered, especially if they are very deep. We also welcome contributions on saline lakes and research on estuarine waters where the results have application to large lakes.