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More than eating dirt: a review of avian geophagy

More than eating dirt: a review of avian geophagy Geophagy, the ingestion of earth varying in particle size from stones to soils rich in clay, is a relatively widespread behaviour across avian taxa. We reviewed its occurrence in birds and its hypothesised adaptive functions in birds. Of the ∼30 avian orders, 23 exhibit geophagy. However, it has only been documented in ∼260 species (∼2% of birds) and therefor is relatively uncommon. Ingestion of stones and other large particles (grit) is recorded in 54 extant families across the avian phylogeny and appears to be ancient in birds and has evolved several times. Clay ingestion is recorded in 14 phylogenetically scattered families and might have evolved repeatedly. Furthermore, at least nine families exhibit both clay and grit ingestion. Six hypothesised functions of avian geophagy involve digestion and nutrition. Ingested grit might provide (1) essential minerals, particularly sodium or calcium, but it appears to primarily (2) improve mechanical digestion of food in the gizzard, where ingested stones and sand particles are known as gastroliths. Consistent with this gastrolith hypothesis, ∼86% of species ingesting grit consume “hard” food: seeds, leaves, insects or other animals. In contrast, ingested clay appears to be for sodium or other nutrient intake and/or protecting birds from ingested plant secondary compounds, by (3) protecting the digestive tract and (4) adsorbing these compounds. Consistent with this, ∼88% of species ingesting clay eat fruit that is often rich in secondary compounds and low in sodium, and clay ingestion is associated with frugivory in a representative sample of genera of which many have been shown to source sodium. The other two hypotheses are buffering gastric pH (5) and acquiring antidiarrheal agents (6), but no documentation of this in birds was found. We suggest additional tests of these hypotheses and additional investigation of these proposed benefits of geophagy in birds. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png African Zoology Taylor & Francis

More than eating dirt: a review of avian geophagy

Downs, Colleen T; Bredin, Ian P; Wragg, Peter D
African Zoology , Volume 54 (1): 19 – Apr 30, 2019
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More than eating dirt: a review of avian geophagy

Abstract

Geophagy, the ingestion of earth varying in particle size from stones to soils rich in clay, is a relatively widespread behaviour across avian taxa. We reviewed its occurrence in birds and its hypothesised adaptive functions in birds. Of the ∼30 avian orders, 23 exhibit geophagy. However, it has only been documented in ∼260 species (∼2% of birds) and therefor is relatively uncommon. Ingestion of stones and other large particles (grit) is recorded in 54 extant families across the...
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Publisher
Taylor & Francis
Copyright
© 2019 Zoological Society of Southern Africa
ISSN
2224-073X
eISSN
1562-7020
DOI
10.1080/15627020.2019.1570335
Publisher site
See Article on Publisher Site

Abstract

Geophagy, the ingestion of earth varying in particle size from stones to soils rich in clay, is a relatively widespread behaviour across avian taxa. We reviewed its occurrence in birds and its hypothesised adaptive functions in birds. Of the ∼30 avian orders, 23 exhibit geophagy. However, it has only been documented in ∼260 species (∼2% of birds) and therefor is relatively uncommon. Ingestion of stones and other large particles (grit) is recorded in 54 extant families across the avian phylogeny and appears to be ancient in birds and has evolved several times. Clay ingestion is recorded in 14 phylogenetically scattered families and might have evolved repeatedly. Furthermore, at least nine families exhibit both clay and grit ingestion. Six hypothesised functions of avian geophagy involve digestion and nutrition. Ingested grit might provide (1) essential minerals, particularly sodium or calcium, but it appears to primarily (2) improve mechanical digestion of food in the gizzard, where ingested stones and sand particles are known as gastroliths. Consistent with this gastrolith hypothesis, ∼86% of species ingesting grit consume “hard” food: seeds, leaves, insects or other animals. In contrast, ingested clay appears to be for sodium or other nutrient intake and/or protecting birds from ingested plant secondary compounds, by (3) protecting the digestive tract and (4) adsorbing these compounds. Consistent with this, ∼88% of species ingesting clay eat fruit that is often rich in secondary compounds and low in sodium, and clay ingestion is associated with frugivory in a representative sample of genera of which many have been shown to source sodium. The other two hypotheses are buffering gastric pH (5) and acquiring antidiarrheal agents (6), but no documentation of this in birds was found. We suggest additional tests of these hypotheses and additional investigation of these proposed benefits of geophagy in birds.

Journal

African ZoologyTaylor & Francis

Published: Apr 30, 2019

Keywords: clay ingestion; essential minerals; fruit; gastroliths; grit; nutritional guilds; sodium

References

  • Geophagy in the tropics-a literature review
  • Geophagy and the Involuntary Ingestion of Soil
  • Grit in the gizzard of Spanish sparrows (Passer hispaniolensis)
  • Grit ingestion and size-related consumption of tubers by Greylag geese
  • Chemical composition of lick soils: functions of soil ingestion by four ungulate species
  • Characterization of grit use by cornfield birds
  • Influence of daily grit consumption rate and diet on gizzard grit counts
  • The diet and foraging behaviour of the dunnock Prunella modularis in a hedgerow habitat
  • Mineral licks as diversity hotspots in lowland forest of eastern Ecuador
  • Use of mineral licks by mammals and birds in hunted and non-hunted areas of Yasuní National Park, Ecuador
  • Comparative feeding ecology of Anthus novaeseelandiae and Anthus vaalensis in Rhodesia
  • Keystone resource (Ficus) chemistry explains lick visitation by frugivorous bats
  • The use of gravel by purple martins
  • Effects of weather on parrot geophagy in Tambopata, Peru
  • Avian geophagy and soil characteristics in South Eastern Peru
  • The roles of soil characteristics and toxin adsorption in avian geophagy
  • Parrot behavior at a peruvian clay lick
  • Observations of stone-eating in two species of Neotropical falcons (Micrastur semitorquatus and Herpetotheres cachinnans)
  • Parrot behavior at a Rio Manu (Peru) clay lick: temporal patterns, associations and antipredator responses
  • Measuring global trends in the status of diversity: Red list indices for birds
  • Does attraction to frugivores or defense against pathogens shape fruit pulp composition?
  • They’ve got it licked
  • Nutrients drive termite nest geophagy in yellow-chevroned parakeets (Brotogeris chiriri)
  • The role of calcium in reproduction of the ring-necked pheasant
  • Soil-eating by red leaf monkeys (Presbytis rubicunda) in Sabah, Northern Borneo
  • Dirty eating for healthy living
  • Geophagy in New Guinea birds
  • Geophagy in the African olive pigeon Columba arquatrix
  • Aspects of diet choice and digestion in the dark-capped bulbul Pycnonotus barbatus
  • Lust for salt in the Western Amazon
  • Elemental composition of a natural mineral lick in Amazonia
  • Grit selection in waterfowl and it determines exposure to ingested lead shot in Mediterranean wetlands
  • Rangle
  • Size and mass of grit in gizzards of Sandhill cranes, Tundra swans and mute swans
  • Diets of pipits and skylarks at Huiarua Station, Tokomaru Bay, North Island, New Zealand
  • Interactions between haemolytic saponins, bile salts, and small intestinal mucosa in the rat
  • And in New York
  • Biochemical functions of geophagy in parrots, detoxification of dietary toxins and cytoprotective effects
  • Patterns of activity, flocking, and habitat use in parrots of the Peruvian Amazon
  • Grit use by house sparrows: effects of diet and grit size
  • Grit use by birds: a review
  • Geophagy in the African elephant in relation to availability of dietary sodium
  • Sediment ingestion of two sympatric shorebird species
  • Geophagy in Africa and the United States: a culture-nutrition hypothesis
  • Food habits of the meadow-pipit, Anthus pratensis (L.), in alpine habitats at Hardangervidda, south Norway
  • Soil-eating of Japanese macaques (Macaca fuscata) at Arashiyama, Kyoto
  • Soil-eating in Alouatta and Ateles
  • Ingestion of stones by goatsuckers (Caprimulgidae)
  • Detoxification function of geophagy and domestication in the potato
  • Traditional detoxification of acorn bread with clay
  • Detoxification and mineral supplementation as functions of geophagy
  • Selection of calcium and magnesium- bearing grit by pheasants in Minnesota
  • Lick use by large herbivores: a review of benefits and banes of soil consumption
  • Diet and geophagy across a Western Amazonian parrot assemblage
  • Parrot claylick distribution in South America: do patterns of “where” help answer the question “why”?
  • The effects of tourist and boat traffic on parrot geophagy in lowland Peru
  • Numerical data, maintenance activities and locomotion of the wild chacma baboon Papio ursinus
  • Digestive responses of temperate birds switched to fruit or insect diets
  • The diet and nutrition of the Namaqua sandgrouse, an arid-zone granivore
  • Lemming bones as a source of calcium for Arctic sandpipers (Calidris sp.)
  • Geochemistry and clay mineralogy of termite mound soil and the role of geophagy in chimpanzees of the Mahale Mountains, Tanzania
  • Understanding geophagy in animals: Standard procedures for sampling soils
  • The breeding colony of burrowing parrots in Patagonia
  • Grey parrots of the Congo Basin Forest
  • A near complete skeleton of the fossil galliform bird Palaeortyx from the late Oligocene of Germany
  • Observations of parrots at a geophagy site in Bolivia
  • Regulation and grinding ability of grit in the gizzard of Norwegian willow ptarmigan (Lagopus lagopus)
  • Water-plant and soil consumption by Guereza monkeys (Colobus guereza): a relationship with minerals and toxins in the diet
  • Exceptional avian herbivores: multiple transitions towards herbivory in the bird order Anseriformes and its correlation with body mass
  • Observations on the diet of the Australian kestrel Falco cenchroides
  • Nannopsittaca dachilleae, A new species of parrotlet from Eastern Peru
  • Effects of faba bean tannins on the growth and histological structure of the intestinal tract and liver of chicks and rats
  • The usage of rangle by burrowing owls
  • Detecting correlated evolution on phylogenies: a general method for the comparative analysis of discrete characters
  • Seasonal changes in diet of spruce grouse in central Alberta
  • Parrots take it with a grain of salt: available sodium content might drive collpa (clay lick) selection in southeastern Peru
  • A comprehensive phylogeny of birds (Aves) using targeted next-generation DNA sequencing
  • Grey louries Corythaixoides concolor feeding on clay
  • Is the ingestion of small stones by double-crested cormorants a self medicating behavior?
  • Factors governing the hunting behaviour and selection of food by the great tit (Parus major L.)
  • Band-tailed pigeon use of supplemental mineral
  • The parrotlet Forpus xanthopterygius scrapes at clay nests of the ovenbird Furnarius rufus: tasting or testing a new home?
  • Testing the defence trade-off hypothesis: how contents of nutrients and secondary compounds affect fruit removal
  • Geophagy in two parrot species in southern Pantanal, Brazil
  • Jahreszeitliche aspekte der biologie der bartmeise (Panurus biarmicus)
  • Geophagy in birds of Crater Mountain Wildlife Management Area, Papua New Guinea
  • Geophagy and parrots in Papua New Guinea
  • Rangle in large falcons
  • Use of clay licks by maroon-fronted parrots (Rhynchopsitta terrisi) in northern Mexico
  • The use of grit in pipits, especially in American pipit
  • Foraging behaviour and feeding ecology of the black-cheeked lovebird Agapornis nigrigenis in Zambia
  • The status of the Hungarian partridge in New York
  • Clay mineralogical and related characteristics of geophagic materials
  • A review of gastrolith function with implications for fossil vertebrates and a revised classification
  • No gastric mill in sauropod dinosaurs: new evidence from analysis of gastrolith mass and function in ostriches
  • Diet of the Cape parrot, Poicephalus robustus, in Afromontane forests in KwaZulu-Natal, South Africa
  • Why on earth?: Evaluating hypotheses about the physiological functions of human geophagy
  • Gastroliths in Yanornis: an indication of the earliest radical diet-switching and gizzard plasticity in the lineage leading to living birds?