Abstract
Grassy biomes such as savannas are maintained by an interacting suite of ecosystem processes from herbivory to rainfall to fire. Many studies have examined the impacts of large mammalian herbivores on herbaceous plant communities, but few of these studies have been conducted in humid, fertile savannas. We present the findings of a short-term experiment that investigated the effects of herbivory in a fertile, humid, and semi-managed savanna. We erected large-herbivore exclosures in Alas Purwo National Park, Java, Indonesia where rainfall is high and fire is suppressed to test how herbivores impact plant community development across the growing season. Where large mammalian herbivores were excluded, herbaceous plant communities contained more non-grasses and were less similar; diverging in their composition as the growing season progressed. Effects of herbivore exclusion on plant species richness, evenness, and biomass per quadrat were generally weak. Notably, however, two weedy plant species (one native, Imperata cylindrica and one introduced, Senna cf. tora) appeared to benefit most from herbivore release. Our results suggest that heavy grazing pressure by native large mammalian herbivores controlled the composition of the herbaceous plant community. Moreover, exclusion of large mammalian herbivores led to divergence in the plant species composition of exclosures; compositional dissimilarity between herbivore-exclusion plots was higher than between plots exposed to large mammalian herbivores. Our findings suggest that, at this high-rainfall site, large mammalian herbivores constrained the developmental trajectory of plant communities across the growing season.
Highlights
The decade has been designated the United Nations Decade for Ecosystem Restoration, and a central aspect of restoration is the rewilding of large herbivore assemblages [1]
We investigated how herbaceous plant communities developed across a growing season following herbivore exclusion in a semi-managed savanna in eastern Java, Indonesia, which falls at the extreme of the productivity gradient and represents a major geographical gap in herbivore-exclusion studies [5]
Plant communities were more similar, richness was higher, and evenness was lower; this was contrary to our expectation that large mammalian herbivores would promote evenness
Summary
The decade has been designated the United Nations Decade for Ecosystem Restoration, and a central aspect of restoration is the rewilding of large herbivore assemblages [1]. Through selective consumption of plant species and tissues, as well as trampling, defecating, and urinating, large mammalian herbivores alter the growth, colonization, and extinction rates of plants [6]. Selective herbivory, caused by variation in the acceptability of plants as food (palatability), is commonly invoked to explain herbivore-induced changes in plant communities. Herbivory (and rewilded herbivore assemblages in particular) may provide management benefits through the consumption of palatable, invasive plant species [12]. Indirect and non-consumptive effects of herbivory may have counterintuitive impacts on plant communities. Herbivory may suppress unpalatable species by driving soil quality declines [15] or facilitate the growth of palatable species by stimulating compensatory regrowth and activating plant meristems [16, 17]
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