Plant characteristics drive ontogenetic changes in herbivory damage in a temperate forest

Kurokawa, Hiroko, Forestry and Forest Products Research Institute, https://orcid.org/0000-0001-8778-8045

Oguro, Michio, Forestry and Forest Products Research Institute

Takayanagi, Sakino, Jikei University School of Medicine

Aiba, Masahiro, Research Institute for Humanity and Nature

Shibata, Rei, Niigata University

Mimura, Makiko, Okayama University of Commerce Attached high School

Yoshimaru, Hiroshi, Forestry and Forest Products Research Institute

Nakashizuka, Tohru, Forestry and Forest Products Research Institute

hirokokurokawa@gmail.com, mog@ffpri.affrc.go.jp

Published Aug 28, 2022 on Dryad. https://doi.org/10.5061/dryad.tqjq2bw2t

Cite this dataset

Kurokawa, Hiroko et al. (2022). Plant characteristics drive ontogenetic changes in herbivory damage in a temperate forest [Dataset]. Dryad. https://doi.org/10.5061/dryad.tqjq2bw2t

Abstract

Understanding ontogenetic differences in plant defenses and herbivory damage is crucial for obtaining a better understanding of plant life-history strategies, community assembly, and dynamics. Although many studies have compared plant defenses or herbivory damage between ontogenetic stages (e.g., sapling vs. adult), how the effects of plant characteristics on leaf herbivory damage change during plant ontogeny has rarely been examined across species or in a species-rich natural community.
To elucidate the effects of plant characteristics, we compared the relationships of leaf herbivory damage with stem density, plant size, and leaf traits between saplings and adults for almost all co-occurring woody species (56 species, ranging from rare to abundant) in a Japanese temperate forest.
In most species, adults were larger, fewer in number, and had leaf traits that were potentially less favorable to herbivores (e.g., stronger, or with more phenolics). In contrast, we observed species-specific directions of changes in herbivory damage between adults and saplings with plant phylogeny or density having no clear effect. The relationships between some plant traits and herbivory damage were ontogeny dependent, indicating a shift from chemical to physical defense as plants mature, although most of the species characteristics studied were highly correlated between stages. Such ontogeny-dependent relationships between plant traits and herbivory damage could cause variation in the ontogenetic changes in herbivory damage among species depending on the value of plant traits. Moreover, the direction and magnitude of the effects of ontogenetic differences in species traits on the ontogenetic differences in herbivory damage varied depending on the traits. Together, these factors could have caused the observed ontogenetic changes in herbivory damage among species.
Synthesis. Our study demonstrated how relationships between plant characteristics and herbivory damage can change ontogenetically across many coexisting woody species in a forest community, suggesting that plant traits may perform different functions related to herbivory at different ontogenetic stages. This has rarely been considered in previous dualistic comparisons of individual traits and herbivory damage between ontogenetic stages, and it is vital for understanding plant life-history strategies across stages in relationships with herbivores in natural communities.

Funding

Japan Society for the Promotion of Science