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新发传染病引发了营养级联,并增强了结实树的繁殖。

Emerging infectious disease triggered a trophic cascade and enhanced recruitment of a masting tree.

机构信息

Department of Systematic Zoology, Faculty of Biology, Adam Mickiewicz University in Poznań, Ulica Uniwersytetu Poznańskiego 6, Poznań 61-614, Poland.

INRAE, LESSEM, University Grenoble Alpes, 2 rue de la Papeterie, BP 76, Saint-Martin-d'Hères 38400, France.

出版信息

Proc Biol Sci. 2022 Mar 9;289(1970):20212636. doi: 10.1098/rspb.2021.2636. Epub 2022 Mar 2.

Abstract

There are several mechanisms that allow plants to temporarily escape from top-down control. One of them is trophic cascades triggered by top predators or pathogens. Another is satiation of consumers by mast seeding. These two mechanisms have traditionally been studied in separation. However, their combined action may have a greater effect on plant release than either process alone. In 2015, an outbreak of a disease (African swine fever, ASF) caused a crash in wild boar () abundance in Białowieża Primeval Forest. Wild boar are important consumers of acorns and are difficult to satiate relative to less mobile granivores. We hypothesized that the joint action of the ASF outbreak and masting would enhance regeneration of oaks (). Data from ungulate exclosures demonstrated that ASF led to reduction in acorn predation. Tree seedling data indicated that oak recruitment increased twofold relative to pre-epidemic period. Our results showed that perturbations caused by wildlife disease travel through food webs and influence forest dynamics. The outbreak of ASF acted synergistically with masting and removed herbivore top-down control of oaks by mobile consumers. This illustrates that the ASF epidemic that currently occurs across Europe can have broad effects on forest dynamics.

摘要

有几种机制可以使植物暂时逃脱自上而下的控制。其中之一是由顶级捕食者或病原体引发的营养级联。另一个是由大量结实引起的消费者饱食。这两种机制传统上是分开研究的。然而,它们的共同作用可能对植物的释放产生比任何单一过程更大的影响。2015 年,一种疾病(非洲猪瘟,ASF)的爆发导致比亚沃维耶扎原始森林中野猪数量的崩溃。野猪是橡子的重要消费者,与移动性较差的食种子动物相比,它们很难饱食。我们假设 ASF 爆发和结实的共同作用会增强橡树的再生()。来自有蹄类动物围栏的数据表明,ASF 导致橡子捕食减少。树木幼苗数据表明,橡树的招募增加了两倍相对于流行前时期。我们的结果表明,野生动物疾病引起的干扰通过食物网传播,并影响森林动态。ASF 的爆发与结实协同作用,通过移动消费者消除了食草动物对橡树的自上而下的控制。这表明目前在欧洲发生的 ASF 疫情可能对森林动态产生广泛影响。

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