The abundance, biomass, and distribution of ants on Earth

Knowledge on the distribution and abundance of organisms is fundamental to understanding their roles within ecosystems and their ecological importance for other taxa. Such knowledge is currently lacking for insects, which have long been regarded as the "little things that run the world". E...

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Published inProceedings of the National Academy of Sciences - PNAS Vol. 119; no. 40; p. e2201550119
Main Authors Schultheiss, Patrick, Nooten, Sabine S, Wang, Runxi, Wong, Mark K L, Brassard, François, Guénard, Benoit
Format Journal Article
LanguageEnglish
Published United States National Academy of Sciences 04.10.2022
Subjects
Abundance
Animal Distribution
Animals
Ants
Arid regions
Arid zones
Biological Sciences
Biomass
Earth
Earth, Planet
Ecological effects
Ecosystem
Ecosystems
Empirical analysis
Environmental changes
Foraging habitats
Habitats
Humans
Insects
Leaf litter
Mammals
Population Density
Terrestrial ecosystems
insect
worldwide
Formicidae
diversity
density
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Abstract Knowledge on the distribution and abundance of organisms is fundamental to understanding their roles within ecosystems and their ecological importance for other taxa. Such knowledge is currently lacking for insects, which have long been regarded as the "little things that run the world". Even for ubiquitous insects, such as ants, which are of tremendous ecological significance, there is currently neither a reliable estimate of their total number on Earth nor of their abundance in particular biomes or habitats. We compile data on ground-dwelling and arboreal ants to obtain an empirical estimate of global ant abundance. Our analysis is based on 489 studies, spanning all continents, major biomes, and habitats. We conservatively estimate total abundance of ground-dwelling ants at over 3 × 10 and estimate the number of all ants on Earth to be almost 20 × 10 individuals. The latter corresponds to a biomass of ∼12 megatons of dry carbon. This exceeds the combined biomass of wild birds and mammals and is equivalent to ∼20% of human biomass. Abundances of ground-dwelling ants are strongly concentrated in tropical and subtropical regions but vary substantially across habitats. The density of leaf-litter ants is highest in forests, while the numbers of actively ground-foraging ants are highest in arid regions. This study highlights the central role ants play in terrestrial ecosystems but also major ecological and geographic gaps in our current knowledge. Our results provide a crucial baseline for exploring environmental drivers of ant-abundance patterns and for tracking the responses of insects to environmental change.
AbstractList Knowledge on the distribution and abundance of organisms is fundamental to understanding their roles within ecosystems and their ecological importance for other taxa. Such knowledge is currently lacking for insects, which have long been regarded as the “little things that run the world”. Even for ubiquitous insects, such as ants, which are of tremendous ecological significance, there is currently neither a reliable estimate of their total number on Earth nor of their abundance in particular biomes or habitats. We compile data on ground-dwelling and arboreal ants to obtain an empirical estimate of global ant abundance. Our analysis is based on 489 studies, spanning all continents, major biomes, and habitats. We conservatively estimate total abundance of ground-dwelling ants at over 3 × 10 15 and estimate the number of all ants on Earth to be almost 20 × 10 15 individuals. The latter corresponds to a biomass of ∼12 megatons of dry carbon. This exceeds the combined biomass of wild birds and mammals and is equivalent to ∼20% of human biomass. Abundances of ground-dwelling ants are strongly concentrated in tropical and subtropical regions but vary substantially across habitats. The density of leaf-litter ants is highest in forests, while the numbers of actively ground-foraging ants are highest in arid regions. This study highlights the central role ants play in terrestrial ecosystems but also major ecological and geographic gaps in our current knowledge. Our results provide a crucial baseline for exploring environmental drivers of ant-abundance patterns and for tracking the responses of insects to environmental change.
Knowledge on the distribution and abundance of organisms is fundamental to understanding their roles within ecosystems and their ecological importance for other taxa. Such knowledge is currently lacking for insects, which have long been regarded as the "little things that run the world". Even for ubiquitous insects, such as ants, which are of tremendous ecological significance, there is currently neither a reliable estimate of their total number on Earth nor of their abundance in particular biomes or habitats. We compile data on ground-dwelling and arboreal ants to obtain an empirical estimate of global ant abundance. Our analysis is based on 489 studies, spanning all continents, major biomes, and habitats. We conservatively estimate total abundance of ground-dwelling ants at over 3 × 10 and estimate the number of all ants on Earth to be almost 20 × 10 individuals. The latter corresponds to a biomass of ∼12 megatons of dry carbon. This exceeds the combined biomass of wild birds and mammals and is equivalent to ∼20% of human biomass. Abundances of ground-dwelling ants are strongly concentrated in tropical and subtropical regions but vary substantially across habitats. The density of leaf-litter ants is highest in forests, while the numbers of actively ground-foraging ants are highest in arid regions. This study highlights the central role ants play in terrestrial ecosystems but also major ecological and geographic gaps in our current knowledge. Our results provide a crucial baseline for exploring environmental drivers of ant-abundance patterns and for tracking the responses of insects to environmental change.
Knowledge on the distribution and abundance of organisms is fundamental to understanding their roles within ecosystems and their ecological importance for other taxa. Such knowledge is currently lacking for insects, which have long been regarded as the "little things that run the world". Even for ubiquitous insects, such as ants, which are of tremendous ecological significance, there is currently neither a reliable estimate of their total number on Earth nor of their abundance in particular biomes or habitats. We compile data on ground-dwelling and arboreal ants to obtain an empirical estimate of global ant abundance. Our analysis is based on 489 studies, spanning all continents, major biomes, and habitats. We conservatively estimate total abundance of ground-dwelling ants at over 3 × 1015 and estimate the number of all ants on Earth to be almost 20 × 1015 individuals. The latter corresponds to a biomass of ∼12 megatons of dry carbon. This exceeds the combined biomass of wild birds and mammals and is equivalent to ∼20% of human biomass. Abundances of ground-dwelling ants are strongly concentrated in tropical and subtropical regions but vary substantially across habitats. The density of leaf-litter ants is highest in forests, while the numbers of actively ground-foraging ants are highest in arid regions. This study highlights the central role ants play in terrestrial ecosystems but also major ecological and geographic gaps in our current knowledge. Our results provide a crucial baseline for exploring environmental drivers of ant-abundance patterns and for tracking the responses of insects to environmental change.
The astounding ubiquity of ants has prompted many naturalists to contemplate their exact number on Earth, but systematic and empirically derived estimates are lacking. Integrating data from all continents and major biomes, we conservatively estimate 20 × 10 15 (20 quadrillion) ants on Earth, with a total biomass of 12 megatons of dry carbon. This exceeds the combined biomass of wild birds and mammals and equals 20% of human biomass. Ant abundance is distributed unevenly on Earth, peaking in the tropics and varying sixfold among habitats. Our global map of ant abundance expands our understanding of the geography of ant diversity and provides a baseline for predicting ants’ responses to worrying environmental changes that currently impact insect biomass. Knowledge on the distribution and abundance of organisms is fundamental to understanding their roles within ecosystems and their ecological importance for other taxa. Such knowledge is currently lacking for insects, which have long been regarded as the “little things that run the world”. Even for ubiquitous insects, such as ants, which are of tremendous ecological significance, there is currently neither a reliable estimate of their total number on Earth nor of their abundance in particular biomes or habitats. We compile data on ground-dwelling and arboreal ants to obtain an empirical estimate of global ant abundance. Our analysis is based on 489 studies, spanning all continents, major biomes, and habitats. We conservatively estimate total abundance of ground-dwelling ants at over 3 × 10 15 and estimate the number of all ants on Earth to be almost 20 × 10 15 individuals. The latter corresponds to a biomass of ∼12 megatons of dry carbon. This exceeds the combined biomass of wild birds and mammals and is equivalent to ∼20% of human biomass. Abundances of ground-dwelling ants are strongly concentrated in tropical and subtropical regions but vary substantially across habitats. The density of leaf-litter ants is highest in forests, while the numbers of actively ground-foraging ants are highest in arid regions. This study highlights the central role ants play in terrestrial ecosystems but also major ecological and geographic gaps in our current knowledge. Our results provide a crucial baseline for exploring environmental drivers of ant-abundance patterns and for tracking the responses of insects to environmental change.
Author Wang, Runxi
Nooten, Sabine S
Wong, Mark K L
Guénard, Benoit
Schultheiss, Patrick
Brassard, François
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  orcidid: 0000-0002-6906-3507
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  fullname: Schultheiss, Patrick
  organization: Behavioral Physiology and Sociobiology, Universität Würzburg, 97074 Würzburg, Germany
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  orcidid: 0000-0002-1798-315X
  surname: Nooten
  fullname: Nooten, Sabine S
  organization: Animal Ecology and Tropical Biology, Universität Würzburg, 97074 Würzburg, Germany
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  givenname: Runxi
  orcidid: 0000-0003-4902-169X
  surname: Wang
  fullname: Wang, Runxi
  organization: School of Biological Sciences, The University of Hong Kong, Hong Kong SAR, China
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  givenname: Mark K L
  orcidid: 0000-0002-6248-3103
  surname: Wong
  fullname: Wong, Mark K L
  organization: Centre for Environment and Life Sciences, Commonwealth Scientific and Industrial Research Organisation, Health & Biosecurity, Floreat, WA 6014, Australia
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  orcidid: 0000-0002-6234-7013
  surname: Brassard
  fullname: Brassard, François
  organization: Research Institute for the Environment and Livelihoods, Charles Darwin University, Darwin, NT 0810, Australia
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  givenname: Benoit
  surname: Guénard
  fullname: Guénard, Benoit
  organization: School of Biological Sciences, The University of Hong Kong, Hong Kong SAR, China
BackLink https://www.ncbi.nlm.nih.gov/pubmed/36122199$$D View this record in MEDLINE/PubMed
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Copyright Copyright National Academy of Sciences Oct 4, 2022
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Keywords insect
worldwide
Formicidae
diversity
density
Language English
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Notes Edited by Vojtech Novotny, Biologicke centrum Akademie ved Ceske republiky, Ceske Budejovice, Czech Republic; received January 28, 2022; accepted August 9, 2022 by Editorial Board Member Pablo A. Marquet
1P.S. and S.S.N. contributed equally to this work.
Author contributions: P.S., S.S.N., R.W., M.K.L.W., F.B., and B.G. designed research; P.S., S.S.N., R.W., M.K.L.W., F.B., and B.G. performed research; P.S., S.S.N., and R.W. analyzed data; and P.S., S.S.N., R.W., M.K.L.W., F.B., and B.G. wrote the paper.
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Snippet Knowledge on the distribution and abundance of organisms is fundamental to understanding their roles within ecosystems and their ecological importance for...
The astounding ubiquity of ants has prompted many naturalists to contemplate their exact number on Earth, but systematic and empirically derived estimates are...
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SubjectTerms Abundance
Animal Distribution
Animals
Ants
Arid regions
Arid zones
Biological Sciences
Biomass
Earth
Earth, Planet
Ecological effects
Ecosystem
Ecosystems
Empirical analysis
Environmental changes
Foraging habitats
Habitats
Humans
Insects
Leaf litter
Mammals
Population Density
Terrestrial ecosystems
Title The abundance, biomass, and distribution of ants on Earth
URI https://www.ncbi.nlm.nih.gov/pubmed/36122199
https://www.proquest.com/docview/2721741581
https://pubmed.ncbi.nlm.nih.gov/PMC9546634
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