Termite range and useful traits quantitatively modeled for the primary time

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Termite diversity and functional traits quantitatively modeled for the first time

A soldier termite (Macrotermitinae) in the Okavango Delta. Source: Wikipedia

As ecosystem engineers, termites perform a number of ecosystem services. Although termites represent an ideal study system to study broad-based diversity patterns, their broad-based biogeographical patterns have yet to be fully studied.

To examine patterns of termite taxonomic richness and functional biogeography, researchers at the Xishuangbanna Tropical Botanical Garden (XTBG) of the Chinese Academy of Sciences compiled a dataset of termite species and their functional traits along with environmental data.

Researchers studied the global distribution of termite diversity, as well as morphological characteristics and diversity across China. They also identified which environmental factors explain termite taxonomic and functional biogeography at both global and intra-Chinese scales, and examined how these compare between scales.

Researchers mapped global patterns of termite abundance. The analyzes showed increasing termite species richness with decreasing latitude both on a global scale and within China. Termite biodiversity peaked in tropical regions with over 100 species.

They also discovered apparent latitude trends in the mean community value of termite morphological traits on average, with body size and leg length decreasing with increasing latitude. On average, termite species got larger towards the tropics.

In addition, their data showed that temperature, normalized difference vegetation index, and water variables were the most important factors driving variation in termite abundance. Soil and temperature were the main factors controlling variation in the geographic distribution of termite functional traits.

“This is the first study to quantitatively model termite diversity and functional traits on a large scale. And it provides a useful basis for further ecological analysis,” said XTBG’s Yang Xiaodong.

The study was published in iScience.

More information:
Shengjie Liu et al., Understanding global and regional patterns of termite diversity and regional functional characteristics, iScience (2022). DOI: 10.1016/j.isci.2022.105538

Provided by the Chinese Academy of Sciences

Citation: Termite diversity and functional traits first quantitatively modeled (2022, November 16), retrieved November 16, 2022 from https://phys.org/news/2022-11-termite-diversity-functional-traits-quantitatively.html

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