Abstract
Aims: Plant community dynamics are influenced by interspecific interactions. Previous studies have shown that soil organisms play a key role in such interactions, but few studies have quantified soil fauna contributions.
Methods: We investigated the effects of root lesion (RLN) and bacterial feeding (BFN) nematodes on the interaction between seedlings of nitrogen-(N)-fixing tree species of Acacia and non-fixing Banksia from early and late successional stages of a temperate forest in a pot experiment.
Results: Nematodes had consistent, albeit minor, negative effects on both N-fixers and non-fixers in the early successional stage scenario. By contrast, BFNs increased biomass production of both species in late-stage monocultures and in Banksia in mixed cultures. Moreover, RLNs negatively affected late-stage Banksia in monocultures but promoted its biomass production when grown with Acacia. Reduced 15N concentration in Banksia indicates that the switch was driven by transfer of N from Acacia facilitated by RLN.
Conclusions: Soil nematodes thus moderate interspecific interactions differently in early and late successional stages. A correction to the original article is a available at: https://doi.org/10.1007/s11104-024-06975-2
Methods: We investigated the effects of root lesion (RLN) and bacterial feeding (BFN) nematodes on the interaction between seedlings of nitrogen-(N)-fixing tree species of Acacia and non-fixing Banksia from early and late successional stages of a temperate forest in a pot experiment.
Results: Nematodes had consistent, albeit minor, negative effects on both N-fixers and non-fixers in the early successional stage scenario. By contrast, BFNs increased biomass production of both species in late-stage monocultures and in Banksia in mixed cultures. Moreover, RLNs negatively affected late-stage Banksia in monocultures but promoted its biomass production when grown with Acacia. Reduced 15N concentration in Banksia indicates that the switch was driven by transfer of N from Acacia facilitated by RLN.
Conclusions: Soil nematodes thus moderate interspecific interactions differently in early and late successional stages. A correction to the original article is a available at: https://doi.org/10.1007/s11104-024-06975-2
Original language | English |
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Number of pages | 13 |
Journal | Plant and Soil |
DOIs | |
Publication status | E-pub ahead of print (In Press) - 2024 |
Bibliographical note
Publisher Copyright:© The Author(s) 2024.
Keywords
- Aboveground-belowground
- Chronosequence
- Plant competition
- Plant functional identity
- Soil biota
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Soil nematodes modify interactions between nitrogen-fixing and non-fixing tree seedlings from late, but not early, successional stages dataset
Gilarte Padilla, P., Plett, J., Pendall, E., Carrillo Espanol, Y. & Nielsen, U., figshare, 1 Aug 2024
DOI: 10.6084/m9.figshare.9968378.v1, https://doi.org/10.6084/m9.figshare.9968378.v1 and one more link, https://research-data.westernsydney.edu.au/published/a8c94c706f0c11efa8fc590a4e6fded1/ (show fewer)
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