Published January 1, 2022 | Version v1
Journal article Open

Human pressure drives biodiversity-multifunctionality relationships in large Neotropical wetlands

  • 1. State Univ Maringa UEM, Ctr Biol Sci CCB, Dept Biol DBI, Maringa, Parana, Brazil
  • 2. Univ Campinas UNICAMP, Inst Biol, Dept Anim Biol, Lab Multitroph Interact & Biodivers, Campinas, Brazil
  • 3. Univ Fed Mato Grosso, Inst Biosci, Dept Bot & Ecol, Cuiaba, Brazil
  • 4. Penn State Univ, Dept Ecosyst Sci & Management, University Pk, PA 16802 USA
  • 5. Queen Mary Univ London, Sch Biol & Behav Sci, London, England
  • 6. Univ Roehampton, Whitelands Coll, Sch Life & Hlth Sci, London, England
  • 7. Univ Republ, Dept Ecol & Gest Ambiental CURE, Maldonado, Uruguay
  • 8. Finnish Environm Inst, Freshwater Ctr, Oulu, Finland

Description

Many studies have shown that biodiversity regulates multiple ecological functions that are needed to maintain the productivity of a variety of ecosystem types. What is unknown is how human activities may alter the 'multifunctionality' of ecosystems through both direct impacts on ecosystems and indirect effects mediated by the loss of multifaceted biodiversity. Using an extensive database of 72 lakes spanning four large Neotropical wetlands in Brazil, we demonstrate that species richness and functional diversity across multiple larger (fish and macrophytes) and smaller (microcrustaceans, rotifers, protists and phytoplankton) groups of aquatic organisms are positively associated with ecosystem multifunctionality. Whereas the positive association between smaller organisms and multifunctionality broke down with increasing human pressure, this positive relationship was maintained for larger organisms despite the increase in human pressure. Human pressure impacted multifunctionality both directly and indirectly through reducing species richness and functional diversity of multiple organismal groups. These findings provide further empirical evidence about the importance of aquatic biodiversity for maintaining wetland multifunctionality. Despite the key role of biodiversity, human pressure reduces the diversity of multiple groups of aquatic organisms, eroding their positive impacts on a suite of ecological functions that sustain wetlands.

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