Negative Soil Feedbacks Accumulate over Time for Non-native Plant Species

Overview

Journal Ecol Lett

Specialty Environmental Health

Date 2010 May 21

PMID 20482584

Citations 48

Authors

Jeffrey M Diez

Ian Dickie

Grant Edwards

Philip E Hulme

Jon J Sullivan

Richard P Duncan

Affiliations

Soon will be listed here.

Abstract

The enemy release hypothesis is a common explanation for species invasions, suggesting that introduced species benefit from leaving behind natural enemies in the native range. However, any such advantage may attenuate over time. In this study, we test a prediction of this more dynamic enemy release hypothesis: that non-native plant species that became established longer ago exhibit stronger negative feedbacks with the soil. Consistent with declining enemy release over time, we found increasingly negative soil feedbacks for species established longer ago in New Zealand. Negative soil feedbacks were also stronger for more widespread species, but weaker for more locally abundant species, suggesting that species accumulate negative interactions as they spread and can be locally regulated by these interactions. We also present data to support the common assumption that relatives have similar impacts on and responses to soil communities. Together, these data highlight the dynamic nature of novel interactions arising from species introductions.

Citing Articles

Soil Legacy Effects of and Biochar Remediation Depend on Invasion Intensity.

Li J, Zheng Y, Chang S, Li Y, Wang Y, Chang X Plants (Basel). 2025; 14(3).

PMID: 39942964 PMC: 11820734. DOI: 10.3390/plants14030401.

Vegetative growth drives the negative effects of an invasive species on resident community diversity and is not limited by plant-soil feedbacks: A temporal assessment.

Holden E, Salimbayeva K, Brown C, Stotz G, Cahill Jr J Ecol Evol. 2024; 14(7):e70070.

PMID: 39041020 PMC: 11262830. DOI: 10.1002/ece3.70070.

Environmental selection and evolutionary process jointly shape genomic and functional profiles of mangrove rhizosphere microbiomes.

Yu X, Tu Q, Liu J, Peng Y, Wang C, Xiao F mLife. 2024; 2(3):253-266.

PMID: 38817818 PMC: 10989796. DOI: 10.1002/mlf2.12077.

Agricultural soil legacy influences multitrophic interactions between crops, their pathogens and pollinators.

Davis J, Cohen A, Getman-Pickering Z, Grab H, Hodgden B, Maher R Proc Biol Sci. 2023; 290(2011):20231453.

PMID: 38018107 PMC: 10685131. DOI: 10.1098/rspb.2023.1453.

Plant community stability is associated with a decoupling of prokaryote and fungal soil networks.

In t Zandt D, Kolarikova Z, Cajthaml T, Munzbergova Z Nat Commun. 2023; 14(1):3736.

PMID: 37349286 PMC: 10287681. DOI: 10.1038/s41467-023-39464-8.