Abstract
Despite the large body of theory concerning multiple disturbances, relatively few attempts have been made to test the theoretical assumptions of how and if disturbances interact. Of particular importance is whether disturbance events are linked, as this can influence the probability and intensity of ecological change. Disturbances are linked when one disturbance event increases or decreases the likelihood or extent of another. To this end, we used two long-term, multi-disturbance experiments in northern Wisconsin to determine whether earthworm invasion is linked to canopy gap creation and white-tailed deer browsing. These three disturbances are common and influential within North American temperate forests, making any interactions among them particularly important to understand. We expected both deer and canopy gaps to favor invasive earthworms, particularly species that live close to or on the soil surface. However, we found only partial support of our hypotheses, as both deer exclosures and canopy gaps decreased earthworms in each experiment. Further, earthworm density increased the most over time in areas far from the gap center and in areas with deer present. Deer exclosures primarily decreased Aporrectodea and Lumbricus species, while gaps decreased Dendrobaena and Lumbricus species. Our findings show that earthworm invasion is linked to deer presence and gap-creating disturbances, which provides new insight in multiple disturbance theory, aboveground–belowground dynamics, and temperate forest management.
| Original language | English (US) |
|---|---|
| Article number | e4040 |
| Journal | Ecology |
| Volume | 104 |
| Issue number | 6 |
| DOIs | |
| State | Published - Jun 2023 |
Bibliographical note
Funding Information:We thank C. Kern and L. Pile Knapp for review of this manuscript, K. Yoo for insight regarding earthworm biology, R. Montgomery's lab for feedback on this manuscript, K. Ortman and the Kemp Natural Resources Station for lodging and support, E. Latty for establishing the earthworm sampling at the FE, and the Wisconsin Department of Natural Resources and the U.S. Forest Service Northern Research Station for materials to carry out this research. We also thank the National Science Foundation Graduate Research Fellowship (Award No. 1839286), the Natural Resources Science and Management Program, and the University of Minnesota Doctoral Dissertation Fellowship for their monetary support. Lastly, we thank two anonymous reviewers whose comments greatly improved this manuscript.
Funding Information:
We thank C. Kern and L. Pile Knapp for review of this manuscript, K. Yoo for insight regarding earthworm biology, R. Montgomery's lab for feedback on this manuscript, K. Ortman and the Kemp Natural Resources Station for lodging and support, E. Latty for establishing the earthworm sampling at the FE, and the Wisconsin Department of Natural Resources and the U.S. Forest Service Northern Research Station for materials to carry out this research. We also thank the National Science Foundation Graduate Research Fellowship (Award No. 1839286), the Natural Resources Science and Management Program, and the University of Minnesota Doctoral Dissertation Fellowship for their monetary support. Lastly, we thank two anonymous reviewers whose comments greatly improved this manuscript.
Publisher Copyright:
© 2023 The Authors. Ecology published by Wiley Periodicals LLC on behalf of The Ecological Society of America. This article has been contributed to by U.S. Government employees and their work is in the public domain in the USA.
Keywords
- aboveground–belowground interactions
- canopy gaps
- invasive earthworms
- linked disturbance
- temperate forest
- ungulates
- white-tailed deer
PubMed: MeSH publication types
- Journal Article
