一个案例研究:基于自然的工程解决方案在恢复日本斜视占主导地位的溪堤中的应用

S. Hoerbinger, H. Rauch
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引用次数: 4

摘要

考虑到节节草沿河道的高丰度,入侵的预期增加及其对河岸生态系统的负面影响,对创新的方法和管理策略有很高的需求。虽然杂草管理的主要目的是减少入侵植物物种的数量,但目前提出的基于自然的工程解决方案(NABES)的目标是重新安置原生河岸森林并恢复生态系统功能。NABES的概念是通过频繁移除节缕草的芽来支持实施物种,直到本地植被通过根部竞争和阴影压力抑制节缕草。为了能够制定适应性的虎杖管理策略,必须提高有关海洋季节生物量发展和最有效维护间隔的知识。此外,更好地了解入侵物种和本地物种之间的相互作用是必不可少的。在本研究中,在以黄秋花为主的溪堤上测试了柳树刷垫(一种常用的控制河岸侵蚀的技术)与适应性管理策略相结合的有效性。由于紫荆具有较高的生态振幅和优良的土壤生物工程特性,因此采用了紫荆。在河堤上部,粳稻芽产量最大,而靠近水的部分产量较低。4月和5月生物量产量最高。尽管采笋时间间隔增加,但采笋产量明显下降,在8月份几乎停止生产。与溪水接触的紫荆枝发育良好。第三次调查后,紫荆的生物量产量迅速下降,而随着植被期的延长,紫荆的盖度逐渐下降。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Case Study: The Implementation of a Nature-Based Engineering Solution to Restore a Fallopia japonica-Dominated Brook Embankment
Considering the high abundance of knotweeds along river courses, the expected increase of invasion and the consequent negative impacts on riparian ecosystems, there is a high demand for innovative approaches and management strategies. While a primary aim of weed management is to reduce the population of an invasive plant species, the goal of the pre-sented nature-based engineering solution (NABES) is to reinstall native riparian forests and to restore ecosystem functioning. The concept of NABES is to support the implemented species by frequent removal of the knotweed shoots until the native vegetation represses the knotweeds by root competition and shadow pressure. In order to be able to develop adaptive knotweed management strategies, knowledge concerning sea-sonal biomass development and the most effective maintenance intervals must be improved. Additionally, greater understanding of the interaction between invasive and native species is essential. In the present study, the effectiveness of a willow brush mattress (a frequent technique for controlling riverbank erosion) in combination with adapted management strategies was tested on a Fallopia japonica-dominated brook embankment. Due to its high ecological amplitude and excellent soil bioengineering properties the species S. purpurea was used. In the upper part of the embankment, F. japonica shoot production was by far the strongest, while it was low in the sections next to the water. The strongest biomass production was observed in the months April and May. Even though the temporal interval between shoot removal was increased, shoot production decreased strongly and nearly ceased in August. Branches of S. purpurea with contact to the water of the brook showed good development. In contrast to F. japonica, which suffered a rapid decrease in biomass production after the third survey, the coverage ratio of S. purpurea decreased gradually over the vegetation period.
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