Modeling the long-term effects of introduced herbivores on the spread of an invasive tree

Authored by Donald L DeAngelis, Bo Zhang, Min B Rayamajhi, Daniel Botkin

Date Published: 2017

DOI: 10.1007/s10980-017-0519-6

Sponsors: United States Department of Agriculture (USDA)

Platforms: No platforms listed

Model Documentation: ODD

Model Code URLs: Model code not found

Abstract

Melaleuca quinquenervia (Cav.) Blake (hereafter melaleuca) is an invasive tree from Australia that has spread over the freshwater ecosystems of southern Florida, displacing native vegetation, thus threatening native biodiversity. Suppression of melaleuca appears to be progressing through the introduction of insect species, the weevil, Oxiops vitiosa, and the psyllid, Boreioglycaspis melaleucae. To improve understanding of the possible effects of herbivory on the landscape dynamics of melaleuca in native southern Florida plant communities. We projected likely future changes in plant communities using the individual based modeling platform, JABOWA-II, by simulating successional processes occurring in two types of southern Florida habitat, cypress swamp and bay swamp, occupied by native species and melaleuca, with the impact of insect herbivores. Computer simulations show melaleuca invasion leads to decreases in density and basal area of native species, but herbivory would effectively control melaleuca to low levels, resulting in a recovery of native species. When herbivory was modeled on pure melaleuca stands, it was more effective in stands with initially larger-sized melaleuca. Although the simulated herbivory did not eliminate melaleuca, it decreased its presence dramatically in all cases, supporting the long-term effectiveness of herbivory in controlling melaleuca invasion. The results provide three conclusions relevant to management: (1) The introduction of insect herbivory that has been applied to melaleuca appears sufficient to suppress melaleuca over the long term, (2) dominant native species may recover in about 50 years, and (3) regrowth of native species will further suppress melaleuca through competition.

Tags

Individual-based model Dynamics growth South Florida Invasive plant Biological-control agent Insect herbivory Jabowa-ii forest simulator Melaleuca quinquenervia Native species recovery Quinquenervia cav. blake North-central florida Melaleuca-quinquenervia Biocontrol agents Oxyops-vitiosa Cypress