入侵两栖植物报春花(Ludwigia hexapetala)在不同生境类型、季节和盐度下的原位等位异化作用表达

IF 2.8 3区 环境科学与生态学 Q1 BIODIVERSITY CONSERVATION
Judith Z. Drexler, Michael Gross, Michelle L. Hladik, Bailey Morrison, Erin Hestir
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引用次数: 0

摘要

外来入侵植被的广泛侵扰已经改变了世界各地的湿地。Ludwigia hexapetala 是一种广泛分布的两栖入侵植物,在开阔水域呈匍匐生长习性,在陆地生境呈直立生长习性。在加利福尼亚州的旧金山河口上游,L. hexapetala 越来越多地陆生到沼泽中,这种扩张可能是由等位基因促进的。我们首次在野外对六扇瓣荠菜(L. hexapetala)的等位植病作用进行了研究,以确定:(1)六扇瓣荠菜(L. hexapetala)是否在原地表达三种已知的等位化学物质;(2)叶片、土壤和水中是否能检测到等位化学物质;(3)等位植病作用的表达是否因季节、盐度和生长习性(开放水域 "补丁 "与陆地沼泽 "界面 "位置)而异。2021 年夏季、2021 年秋季和 2022 年春季,在旧金山河口上游的两个淡水地点和两个低盐度地点采集了水、土壤和 L. hexapetala 叶片。在水、土壤和叶片中检测到了已知的等位化学物质三尖杉酯苷和槲皮苷,以及一种新发现的多酚--salipurposid。在新鲜和低盐条件下,水和土壤中的等位化学物质浓度存在明显差异,但叶片中的差异不明显。所有三种等位化学物质在斑块和界面位置的浓度都较高,这表明六扇蛛等位异化作用在开放水域的竞争作用比陆地生境更大。每种等位化学物质在叶片上的浓度随季节而变化;然而,三尖杉酯素和莎草磷在春季的浓度都较高。这些结果表明,在早春施用除草剂可能最有效地控制六盘鱼从开阔水域向沼泽地的陆生化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

In situ allelopathic expression by the invasive amphibious plant, Ludwigia hexapetala (water primrose) across habitat types, seasons, and salinities

In situ allelopathic expression by the invasive amphibious plant, Ludwigia hexapetala (water primrose) across habitat types, seasons, and salinities

Broad infestations of invasive, non-native vegetation have transformed wetlands around the world. Ludwigia hexapetala is a widespread, amphibious invasive plant with a creeping growth habit in open water and an erect growth habit in terrestrial habitats. In the upper San Francisco Estuary of California, L. hexapetala is increasingly terrestrializing into marshes and this expansion may be facilitated by allelopathy. We conducted the first field-based study on L. hexapetala allelopathy to determine whether (1) three allelochemicals known to be exuded by L. hexapetala are expressed in situ, (2) the allelochemicals are detectable in leaves, soil, and water, and (3) allelopathic expression varies by season, salinity, and growth habit (open water “patch” vs. terrestrial marsh “interface” locations). Water, soil, and L. hexapetala leaves were collected in two freshwater sites and two oligohaline sites in the upper San Francisco Estuary in summer 2021, fall 2021, and spring 2022. Myricitrin and quercitrin, known allelochemicals, and salipurposid, a newly identified polyphenol, were detected in water, soil, and leaves. There were significant differences in allelochemical concentrations under fresh versus oligohaline conditions in water and soil, but not leaves. All three allelochemicals generally had higher concentrations in patch versus interface locations, suggesting that L. hexapetala allelopathy plays a greater competitive role in open water than terrestrial habitats. Leaf concentrations of each allelochemical varied seasonally; however, both myricitrin and salipurposid had heightened concentrations in spring. These results suggest that herbicide application in early spring may be most effective in controlling L. hexapetala terrestrialization from open water to marshes.

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来源期刊
Biological Invasions
Biological Invasions 环境科学-生态学
CiteScore
6.00
自引率
6.90%
发文量
248
审稿时长
3 months
期刊介绍: Biological Invasions publishes research and synthesis papers on patterns and processes of biological invasions in terrestrial, freshwater, and marine (including brackish) ecosystems. Also of interest are scholarly papers on management and policy issues as they relate to conservation programs and the global amelioration or control of invasions. The journal will consider proposals for special issues resulting from conferences or workshops on invasions.There are no page charges to publish in this journal.
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