Applying the stress-gradient hypothesis to curb the spread of invasive bamboo
Applying the stress-gradient hypothesis to curb the spread of invasive bamboo
1. The stress-gradient hypothesis (SGH) provides a conceptual framework for explaining howenvironmental context determines the nature of biotic interactions. It may be also useful for predicting geographic variability in the effect of management interventions on biological invasions. We aimed to test hypotheses consistent with the SGH to explain context dependency in bamboo invasion of secondary forests in Japan, and establish a predictive understanding of forest management impacts on invasion.
2. We use a priori physiological knowledge of invasive giant bamboo, Phyllostachys bambusoides, to generate hypotheses consistent with the SGH. We modelled variation in giant bamboo occupancy within 810 secondary forest plots across the broad environmental gradients of Japan using a national vegetation database.
3. Consistent with the SGH, we find that the effect of tree canopy cover on bamboo occupancy depends on interactions between solar radiation and mean annual temperature. In cool regions with high solar radiation – stressful conditions for bamboo – shade cast by dense canopies facilitates invasion. However, in warmer regions that are more benign, dense canopies tend to inhibit spread via competition for light, space and other resources.
4. We used our findings to characterise geographic variability in the effect of forest thinning, a widespread management intervention used to enhance forest biodiversity, on the risk of bamboo spread into secondary forests in Japan. Thinning forest canopies to increase understorey light radiation should limit bamboo spread in cooler regions, while tree planting to increase canopy shade should limit bamboo spread in warmer regions. We provide evidence that the SGH can inform practical recommendations for invasive species control.
Spake, Rebecca
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Soga, Masashi
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Catford, Jane A.
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Eigenbrod, Felix
43efc6ae-b129-45a2-8a34-e489b5f05827
3 September 2021
Spake, Rebecca
1cda8ad0-2ab2-45d9-a844-ec3d8be2786a
Soga, Masashi
5112e9c5-d912-42a9-adfc-38b774fe703f
Catford, Jane A.
13355676-9979-4a37-8b90-5ffe4080286a
Eigenbrod, Felix
43efc6ae-b129-45a2-8a34-e489b5f05827
Spake, Rebecca, Soga, Masashi, Catford, Jane A. and Eigenbrod, Felix
(2021)
Applying the stress-gradient hypothesis to curb the spread of invasive bamboo.
Journal of Applied Ecology.
(doi:10.1111/1365-2664.13945).
Abstract
1. The stress-gradient hypothesis (SGH) provides a conceptual framework for explaining howenvironmental context determines the nature of biotic interactions. It may be also useful for predicting geographic variability in the effect of management interventions on biological invasions. We aimed to test hypotheses consistent with the SGH to explain context dependency in bamboo invasion of secondary forests in Japan, and establish a predictive understanding of forest management impacts on invasion.
2. We use a priori physiological knowledge of invasive giant bamboo, Phyllostachys bambusoides, to generate hypotheses consistent with the SGH. We modelled variation in giant bamboo occupancy within 810 secondary forest plots across the broad environmental gradients of Japan using a national vegetation database.
3. Consistent with the SGH, we find that the effect of tree canopy cover on bamboo occupancy depends on interactions between solar radiation and mean annual temperature. In cool regions with high solar radiation – stressful conditions for bamboo – shade cast by dense canopies facilitates invasion. However, in warmer regions that are more benign, dense canopies tend to inhibit spread via competition for light, space and other resources.
4. We used our findings to characterise geographic variability in the effect of forest thinning, a widespread management intervention used to enhance forest biodiversity, on the risk of bamboo spread into secondary forests in Japan. Thinning forest canopies to increase understorey light radiation should limit bamboo spread in cooler regions, while tree planting to increase canopy shade should limit bamboo spread in warmer regions. We provide evidence that the SGH can inform practical recommendations for invasive species control.
Text
JAPPL-2021-00099
- Accepted Manuscript
More information
Accepted/In Press date: 11 May 2021
e-pub ahead of print date: 10 June 2021
Published date: 3 September 2021
Identifiers
Local EPrints ID: 449283
URI: http://eprints.soton.ac.uk/id/eprint/449283
ISSN: 1365-2664
PURE UUID: b6a3e7cd-68e7-42b9-8c68-88a52fe4608a
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Date deposited: 21 May 2021 16:31
Last modified: 17 Mar 2024 03:21
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Author:
Masashi Soga
Author:
Jane A. Catford
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