What is it about?
Across our rapidly changing world, invasive species are spreading, wiping out native species, and disrupting the key processes of ecosystems. We present a case study from the "black cotton" savanna (a grassland-forest) in East Africa where an invasive ant has drastically reduced the photosynthesis (the capture of light energy from the sun into sugar molecules) of the whistling acacia, one of the most productive and common trees in the habitat. The invasive "big-headed ant" has steadily marched into new areas for about 20 years and exterminated native ant species that usually help whistling acacias to fend off elephants and to survive in a landscape with many large herbivores. Invaded, unprotected acacias suffer more damage year-over-year than their non-invaded counterparts, and eventually produce leaves that are worse at photosynthesis, and also produce fewer leaves overall.
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Why is it important?
This paper explores likely explanations for why this photosynthesis decline is occurring at the physiological level, explains how the loss of these trees will negatively affect many savanna wildlife, and predicts that biological invasions may worsen climate change by causing other plant communities to reduce photosynthesis (and thereby capture less carbon dioxide, a key greenhouse gas, from the atmosphere). This paper is unique in that it was the first to find a connection between invasive animals and changes in tree photosynthesis, and raises the alarm that we must work quickly to determine if similar cases are occurring elsewhere due to invasions by ants or other insects, which have invaded virtually every ecosystem.
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This page is a summary of: Mutualism disruption by an invasive ant reduces carbon fixation for a foundational East African ant‐plant, Ecology Letters, March 2021, Wiley,
DOI: 10.1111/ele.13725.
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