Invasion by Ammophila arenaria alters soil chemistry, leaving lasting legacy effects on restored coastal dunes in California

IF 1.3 4区 生物学 Q3 PLANT SCIENCES
L. Parsons, B. H. Becker
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引用次数: 4

Abstract

Abstract Many restoration projects rely on invasive plant removal to restore ecosystems. However, success of restoration efforts relying on invasive removal can be jeopardized, because in addition to displacing native plants, invasives can also dramatically impact soils. Many studies have documented invasives' effects on soil chemistry and microbiota. While European beachgrass [Ammophila arenaria (L.) Link] is a worldwide invasive problem in coastal dunes outside northern Europe, little attention has been paid to effects of this species on soil chemistry following invasion, even though it establishes persistent, dense monocultures. In our study, we evaluated effects of A. arenaria invasion on soil chemistry of coastal dunes at Point Reyes National Seashore (PRNS); persistence of effects following removal by mechanical or herbicide treatment (legacy effects); and effects of treatment independent of invasion. Dune restoration efforts at PRNS have met with mixed success, especially in herbicide-treated backdunes, where decomposition of dead A. arenaria has been greatly delayed. Based on results, invasion impacted 74% of 19 variables assessed, although there was a significant interaction in many cases with successional status (earlier vs. later). Almost 60% of invasion effects persisted after restoration, with legacy effects prevalent in herbicide-treated backdunes where sand deposition from adjacent beaches could not mitigate effects as it could in herbicide-treated foredunes. Mechanical removal—or inversion of invaded surface soils with less-contaminated subsoils—resulted in fewer legacy effects, but more treatment effects, primarily in backdunes. Soil chemistry may decelerate decomposition of A. arenaria due to the limited nitrogen (N) available to enable microbial breakdown of the high carbon(C):N (70.8:1) material, but microbial factors probably play a more important role. Success of restoration at PRNS may not be fully realized until legacy effects are resolved through additional actions such as inoculation with healthy microbiomes or necromass reduction through controlled burning.
砂氨菌的入侵改变了土壤的化学成分,对加州恢复的海岸沙丘留下了持久的影响
摘要许多恢复项目依赖于入侵植物的清除来恢复生态系统。然而,依赖侵入性清除的恢复工作的成功可能会受到危害,因为除了取代本地植物外,入侵还会对土壤产生巨大影响。许多研究记录了入侵对土壤化学和微生物群的影响。虽然欧洲海滩草[Ammophila arenaria(L.)Link]是北欧以外海岸沙丘的一个全球性入侵问题,但人们很少关注该物种在入侵后对土壤化学的影响,尽管它建立了持久、密集的单一栽培。在我们的研究中,我们评估了A.arenaria入侵对雷耶斯角国家海滨海岸沙丘土壤化学的影响;通过机械或除草剂处理去除后的持续影响(遗留影响);以及独立于侵袭的治疗效果。PRNS的沙丘恢复工作取得了喜忧参半的成功,尤其是在经过除草剂处理的背景中,死亡的A.arenaria的分解被大大推迟。根据结果,侵袭影响了评估的19个变量中的74%,尽管在许多情况下与继任状态存在显著的相互作用(早期与晚期)。几乎60%的入侵影响在恢复后持续存在,遗留影响在除草剂处理的后沙丘中普遍存在,因为来自邻近海滩的沙子沉积无法像在除草剂处理过的前沙丘中那样减轻影响。机械清除——或用污染较少的底土对被入侵的表层土壤进行倒置——产生的遗留影响较少,但处理效果更多,主要是在后台。由于可用于微生物分解高碳(C):N(70.8:1)物质的氮(N)有限,土壤化学可能会减缓A.arenaria的分解,但微生物因素可能发挥更重要的作用。在通过额外行动(如接种健康微生物群或通过控制燃烧减少坏死块)解决遗留影响之前,可能无法完全实现PRNS的修复成功。
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来源期刊
CiteScore
2.20
自引率
9.10%
发文量
24
审稿时长
6-12 weeks
期刊介绍: Invasive Plant Science and Management (IPSM) is an online peer-reviewed journal focusing on fundamental and applied research on invasive plant biology, ecology, management, and restoration of invaded non-crop areas, and on other aspects relevant to invasive species, including educational activities and policy issues. Topics include the biology and ecology of invasive plants in rangeland, prairie, pasture, wildland, forestry, riparian, wetland, aquatic, recreational, rights-of-ways, and other non-crop (parks, preserves, natural areas) settings; genetics of invasive plants; social, ecological, and economic impacts of invasive plants and their management; design, efficacy, and integration of control tools; land restoration and rehabilitation; effects of management on soil, air, water, and wildlife; education, extension, and outreach methods and resources; technology and product reports; mapping and remote sensing, inventory and monitoring; technology transfer tools; case study reports; and regulatory issues.
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