在纳米比亚的几个地点调查了大黄蜂物种的化感作用,粘合剂,疏水性和有毒乳胶是仙女圈的原因。

IF 2.2 2区 环境科学与生态学 Q1 Agricultural and Biological Sciences
J J Marion Meyer, Christiaan E Schutte, Jan W Hurter, Nicole S Galt, Petunia Degashu, Greg Breetzke, Denis Baranenko, Nicole L Meyer
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引用次数: 9

摘要

背景:在这项多学科研究中,我们提出了土壤化学、植物化学和GIS空间模式证据,表明在纳米比亚三个不同地点研究的仙女圈可能是由大戟属植物引起的。结果:涂布胶乳的基质砂具有较快的渗水速率。气相色谱-质谱分析表明,仙圈土壤与腐解下的黄花蒿土壤在植物化学性质上非常相似。达玛尔纳和甘菊提取物对单根Stipagrostis uniplumis根际分离的细菌有一定的抑制作用,并抑制草籽萌发。先前鉴定的几种具有抗菌和植物毒性活性的化合物也被鉴定出来。GIS分析表明,仙女圈的周长和空间特征(Voronoi镶嵌、与最近邻的距离比、对相关函数和l函数)与E. damarana(纳米比亚北部)和E. gummifera(纳米比亚南部)共同发生的仙女圈相似。历史航拍图像显示,在406株gummifera植物种群中,有134株在50年间被仙女圈所取代。最后,通过将降雨量、海拔高度和土地覆盖整合到一个基于gis的场地适宜性模型中,我们预测仙女圈应该发生在哪里。该模型与三种大戟属植物的分布基本一致,并导致在纳米比亚东南部和南非喀拉哈里沙漠的部分地区发现了仙女圈的新位置。结论:damarana、E. gummifera以及可能的E. gregaria等其他物种的化感、黏附、疏水性和毒性乳胶是造成所调查地区纳米比亚仙女圈的原因,可能在所有其他地区也是如此。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The allelopathic, adhesive, hydrophobic and toxic latex of Euphorbia species is the cause of fairy circles investigated at several locations in Namibia.

Background: In this multidisciplinary study we present soil chemical, phytochemical and GIS spatial patterning evidence that fairy circles studied in three separate locations of Namibia may be caused by Euphorbia species.

Results: We show that matrix sand coated with E. damarana latex resulted in faster water-infiltration rates. GC-MS analyses revealed that soil from fairy circles and from under decomposing E. damarana plants are very similar in phytochemistry. E. damarana and E. gummifera extracts have a detrimental effect on bacteria isolated from the rhizosphere of Stipagrostis uniplumis and inhibit grass seed germination. Several compounds previously identified with antimicrobial and phytotoxic activity were also identified in E. gummifera. GIS analyses showed that perimeter sizes and spatial characteristics (Voronoi tessellations, distance to nearest neighbour ratio, pair correlation function and L-function) of fairy circles are similar to those of fairy circles co-occurring with E. damarana (northern Namibia), and with E. gummifera (southern Namibia). Historical aerial imagery showed that in a population of 406 E. gummifera plants, 134 were replaced by fairy circles over a 50-year period. And finally, by integrating rainfall, altitude and landcover in a GIS-based site suitability model, we predict where fairy circles should occur. The model largely agreed with the distribution of three Euphorbia species and resulted in the discovery of new locations of fairy circles, in the far southeast of Namibia and part of the Kalahari Desert of South Africa.

Conclusions: It is proposed that the allelopathic, adhesive, hydrophobic and toxic latex of E. damarana, E. gummifera, and possibly other species like E. gregaria, is the cause of the fairy circles of Namibia in the areas investigated and possibly in all other areas as well.

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来源期刊
BMC Ecology
BMC Ecology ECOLOGY-
CiteScore
5.80
自引率
4.50%
发文量
0
审稿时长
22 weeks
期刊介绍: BMC Ecology is an open access, peer-reviewed journal that considers articles on environmental, behavioral and population ecology as well as biodiversity of plants, animals and microbes.
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