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

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 c...

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Published in:Proceedings of the Royal Society. B, Biological sciences Biological sciences, 2022-03, Vol.289 (1970), p.20212636-20212636
Main Authors: Bogdziewicz, Michał, Kuijper, Dries, Zwolak, Rafał, Churski, Marcin, Jędrzejewska, Bogumiła, Wysocka-Fijorek, Emilia, Gazda, Anna, Miścicki, Stanisław, Podgórski, Tomasz
Format: Article
Language:English
Subjects:
African Swine Fever
Animals
Communicable Diseases, Emerging
Ecology
Forests
Life Sciences
Quercus
Seeds
Sus scrofa
Swine
Trees
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Summary: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.
ISSN:0962-8452
1471-2954
DOI:10.1098/rspb.2021.2636