4.2 Article

Seedling growth declines in warmed tropical forest soils

Journal

BIOTROPICA
Volume 55, Issue 5, Pages 897-910

Publisher

WILEY
DOI: 10.1111/btp.13238

Keywords

climate warming; Inga laurina; Lacmellea panamensis; lowland tropical forest; nitrogen fixation; Panama; photosynthesis; plant productivity; Protium pittieri; Tachigali versicolor; Virola surinamensis

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The response of tropical forest tree seedling growth, photosynthesis and herbivory to 3 years of in situ full-soil profile warming was tested. Results showed that growth and photosynthesis declined significantly in warmed soil compared to soil at ambient temperature, especially for nitrogen-fixing species. The decline in growth may be caused by the negative effect of warming on nitrogen fixation rather than changes in nutrient mineralization from soil organic matter. Further investigation is required to confirm these findings.
The response of plants to a warming climate could have a large feedback on further climatic change. This feedback is especially important for tropical forests, where the global peak in plant productivity and biodiversity occurs. Here we test the response of tropical forest tree seedling growth, photosynthesis and herbivory to 3 years of in situ full-soil profile warming. We studied six species, three of which are known nitrogen-fixers and we hypothesized that the warming response of growth will be mediated by nutrient availability to plants. Across species, growth was significantly lower in warmed soil compared to soil at ambient temperature, and the same pattern was observed for light-saturated photosynthesis, pointing toward a growth decline associated with decreased C fixation. Within species, the relative growth decline was significant for two species, Inga laurina and Tachigali versicolor, both of which are N-fixers. Together our results suggest a growth decline may have resulted from a negative effect of warming on N-fixation, rather than via changes in nutrient mineralization from soil organic matter, which was unchanged for N and increased for P during the dry-to-wet season transition. Overall, our study demonstrates that belowground warming causes species-specific declines in the growth and photosynthesis of seedlings, with a suggestion-requiring further investigation-that this growth decline is larger in N-fixing species.Abstract in Spanish is available with online material.

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