Abstract
Recent reports indicate that the health of our planet is getting worse and that genuine transformative changes are pressing. So far, efforts to ameliorate Earth’s ecosystem crises have been insufficient, as these often depart from current knowledge of the underlying ecological processes. Nowadays, biodiversity loss and the alterations in biogeochemical cycles are reaching thresholds that put the survival of our species at risk. Biological interactions are fundamental for achieving biological conservation and restoration of ecological processes, especially those that contribute to nutrient cycles. Microorganism are recognized as key players in ecological interactions and nutrient cycling, both free-living and in symbiotic associations with multicellular organisms. This latter assemblage work as a functional ecological unit called “holobiont.” Here, we review the emergent ecosystem properties derived from holobionts, with special emphasis on detritivorous terrestrial arthropods and their symbiotic microorganisms. We revisit their relevance in the cycling of recalcitrant organic compounds (e.g., lignin and cellulose). Finally, based on the interconnection between biodiversity and nutrient cycling, we propose that a multicellular organism and its associates constitute an Ecosystem Holobiont (EH). This EH is the functional unit characterized by carrying out key ecosystem processes. We emphasize that in order to meet the challenge to restore the health of our planet it is critical to reduce anthropic pressures that may threaten not only individual entities (known as “bionts”) but also the stability of the associations that give rise to EH and their ecological functions.
Highlights
Recent reports from the United Nations’ Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services (IPBES), declared that the Earth’s ecosystem health has become progressively worse at an unprecedented accelerating pace [Intergovernmental SciencePolicy Platform on Biodiversity and Ecosystem Services (IPBES) and United Nations, 2020]
We propose the concept of “Ecosystem Holobiont” as a functional unit resulting from the integration of “bionts” composed by a multicellular organism together with its microorganism community, and the emergent properties that are generated as a result of the existence of this functional unit are indispensable for key ecological processes (Catania et al, 2016; Doolittle and Booth, 2017; Suárez, 2020; Suárez and Triviño, 2020; Glossary)
The scientific community has recently provided evidence indicating that arthropod populations are declining in many places in the world, and that the leading causes of this decline are of anthropic origin (Hallmann et al, 2017; Lister and Garcia, 2018; Sánchez-Bayo and Wyckhuys, 2019; Eggleton, 2020; Wagner, 2020)
Summary
Recent reports from the United Nations’ Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services (IPBES), declared that the Earth’s ecosystem health has become progressively worse at an unprecedented accelerating pace [Intergovernmental SciencePolicy Platform on Biodiversity and Ecosystem Services (IPBES) and United Nations, 2020]. The loss of biodiversity and damage to ecosystems is of such a Arthropod-Microbiota Integration magnitude that it is being directly linked to current global crises (i.e., sanitary, developmental, economic, security, and social). It has been proposed that only true “transformative changes,” aimed at protecting, and at restoring nature’s critical condition will change the current biodiversity and environmental health decline [Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services (IPBES) and United Nations, 2020]. The decline of “genetic biodiversity” (i.e., biodiversity loss; Hooper et al, 2012) and alterations of the biogeochemical cycles (Glossary; Sabater, 2008; Pinder et al, 2013; Nielsen and Ball, 2015) have been considered among the most severely compromised Planetary Boundaries (Glossary; Rockström et al, 2009; Steffen et al, 2015)
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