长期有蹄类动物影响的悖论:温带森林中植物物种丰富度的增加
The paradox of long-term ungulate impact: increase of plant species richness in a temperate forest.
作者信息
Vild Ondřej, Hédl Radim, Kopecký Martin, Szabó Péter, Suchánková Silvie, Zouhar Václav
机构信息
Institute of Botany, Department of Vegetation Ecology, The Czech Academy of Sciences, Lidická 25/27, Brno, 602 00, Czech Republic.
Masaryk University, Department of Botany and Zoology, Kotlářská 2, Brno, 611 37, Czech Republic.
出版信息
Appl Veg Sci. 2017 Apr;20(2):282-292. doi: 10.1111/avsc.12289. Epub 2017 Feb 8.
QUESTIONS
Did high densities of wild ungulates cause a decline in plant species richness in a temperate oakwood? How did species composition change after nearly five decades? Did ungulates facilitate the spread of ruderal species and supress endangered species? Did dispersal strategies play a role in these processes?
LOCATION
Krumlov Wood, SE Czech Republic.
METHODS
In 2012, we resampled 58 quasi-permanent vegetation plots first surveyed in 1960s. Between the surveys, 36 plots were enclosed in a game preserve with artificially high density of ungulates (mostly deer, mouflon and wild boar; ca. 55 animals per square km). We analysed the differences in temporal changes between plots inside and outside the game preserve, focusing on species diversity and composition. We assessed species characteristics relevant to grazing to understand compositional changes.
RESULTS
Ungulates significantly increased alpha and gamma diversity and caused significant vegetation homogenization inside the game preserve. Vegetation homogenization and the increase in species richness resulted from massive enrichment by ruderal species. However, richness of endangered species decreased. Species dispersed by animals internally (endozoochory) increased, while species dispersed externally (epizoochory) or by wind (anemochory) decreased.
CONCLUSIONS
Contrary to our expectations, our long-term data showed that artificially high ungulate densities substantially increased plant species richness. Apparently, the establishment of ruderal herbs was supported by frequent disturbances and ungulate-mediated dispersal. At the same time, species richness of non-ruderal plants did not change, probably because ungulates hindered the regeneration of woody species and maintained an open forest canopy. In conclusion, high ungulate density led to the spread of ruderal species, which in turn strongly contributed to the observed shift towards nutrient-richer conditions and taxonomically more homogenous communities.
问题
温带栎树林中野生有蹄类动物的高密度是否导致了植物物种丰富度的下降?近五十年后物种组成发生了怎样的变化?有蹄类动物是否促进了杂草物种的扩散并抑制了濒危物种?扩散策略在这些过程中发挥作用了吗?
地点
捷克共和国东南部的克鲁姆洛夫森林。
方法
2012年,我们对20世纪60年代首次调查的58个准永久性植被样地进行了重新采样。在两次调查之间,36个样地被围在一个有蹄类动物密度人为较高的禁猎区内(主要是鹿、摩弗伦羊和野猪;每平方公里约55只动物)。我们分析了禁猎区内外样地时间变化的差异,重点关注物种多样性和组成。我们评估了与放牧相关的物种特征以了解组成变化。
结果
有蹄类动物显著增加了α多样性和γ多样性,并在禁猎区内导致了显著的植被同质化。植被同质化和物种丰富度的增加是由杂草物种的大量富集导致的。然而,濒危物种的丰富度下降了。通过动物内部传播(内寄生)的物种增加了,而通过外部传播(外寄生)或风传播(风媒传播)的物种减少了。
结论
与我们的预期相反,我们的长期数据表明,人为的高有蹄类动物密度大幅增加了植物物种丰富度。显然,杂草草本植物的建立得到了频繁干扰和有蹄类动物介导的传播的支持。与此同时,非杂草植物的物种丰富度没有变化,可能是因为有蹄类动物阻碍了木本物种的更新并维持了开阔的林冠层。总之,高有蹄类动物密度导致了杂草物种的扩散,这反过来又极大地促成了观察到的向营养更丰富条件和分类学上更同质化群落的转变。
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