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{{redirect|Salt lick}}
{{redirect|Salt lick}}
[[File:Bos gaurus.jpg|thumb|[[Gaur]] at a natural salt lick]]
[[File:Bos gaurus.jpg|thumb|[[Gaur]] at a natural salt lick]]
A '''mineral lick''' (also known as '''salt lick''') is a natural [[mineral]] deposit where animals in nutrient-poor ecosystems can obtain essential [[mineral nutrients]]. In an ecosystem, salt/mineral licks often occur naturally, providing the [[sodium]], [[calcium]], [[iron]], [[phosphorus]] and [[zinc]] required in the springtime for [[bone]], [[muscle]] and other growth in [[deer]] and other wildlife, such as [[moose]], [[elephant]]s, [[cattle]], [[woodchuck]]s, [[domestic sheep]], [[fox squirrel]]s, [[mountain goat]]s and [[porcupine]]s. Harsh weather exposes salty [[mineral]] deposits that draw animals from miles away for a taste of needed nutrients. It is thought that certain fauna can detect [[calcium]] in salt licks.<ref>C. Michael Hogan. 2010. [http://www.eoearth.org/article/Calcium?topic=49557 ''Calcium''. eds. A.Jorgensen, C.Cleveland. Encyclopedia of Earth]. National Council for Science and the Environment.</ref>
A '''mineral lick''' (also known as '''salt lick''' or '''natural lick''') is a natural [[mineral]] deposit where animals in nutrient-poor ecosystems can obtain essential [[mineral nutrients]]. In an ecosystem, salt/mineral licks often occur naturally, providing the [[sodium]], [[calcium]], [[iron]], [[phosphorus]] and [[zinc]] required in the springtime for [[bone]], [[muscle]] and other growth in [[deer]] and other wildlife, such as [[moose]], [[elephant]]s, [[cattle]], [[woodchuck]]s, [[domestic sheep]], [[fox squirrel]]s, [[mountain goat]]s and [[porcupine]]s. Harsh weather exposes salty [[mineral]] deposits that draw animals from miles away for a taste of needed nutrients. It is thought that certain fauna can detect [[calcium]] in salt licks.<ref>C. Michael Hogan. 2010. [http://www.eoearth.org/article/Calcium?topic=49557 ''Calcium''. eds. A.Jorgensen, C.Cleveland. Encyclopedia of Earth]. National Council for Science and the Environment.</ref>

==Overview==
Many animals regularly visit mineral licks to consume clay where they supplement their [[Dietary mineral|diet]] with mineral elements, nutrients, salts. Some animals require the minerals at these sites not for nutrition, but to ward off the effects of secondary compounds that are included in the arsenal of plant defences against herbivory.<ref name="Voigt08">{{cite journal | last1=Voigt | first1=C. C. | last2=Capps | first2=K. A. | last3=Dechmann | first3=D. K. N. | last4=Michner | first4=R. H. | last5=Kunz | first5=T. H. | year=2008 | title=Nutrition or detoxification: Why bats visit mineral licks of the Amazonian rainforest | journal=PLoS ONE | volume=3 | issue=4 | pages=e2011 | doi=10.1371/journal.pone.0002011 | url=http://www.plosone.org/article/fetchObjectAttachment.action;jsessionid=C3C2F69980DAC80E2C391108FBC39387.ambra01?uri=info%3Adoi%2F10.1371%2Fjournal.pone.0002011&representation=PDF}}</ref> The mineral contents of these sites usually contain [[calcium]], [[magnesium]], [[phosphorus]], [[potassium]], and [[sodium]].<ref name="Emmons79">{{cite journal | last1=Emmons | first1=L. H. | last2=Stark | first2=N. M. | title=Elemental composition of a natural mineral lick in Amazonia | journal=Biotropica | volume=11 | issue=4 | pages=311-313 | year=1979 | url=http://www.jstor.org/stable/2387925}}</ref><ref name="Blake11">{{cite journal | last1=Black | first1=J. G. | last2=Mosquera | first2=D. | last3=Guerra | fist3=J. | last4=Loiselle | first4=B. A. | last5=Romo | first5=D. | last6=Swing | first6=K. | year=2011 | title=Mineral licks as diversity hotspots in lowland forest of eastern Ecuador | journal=Diversity | volume=3 | issue=2 | pages=217-234 | doi=10.3390/d3020217 | url=http://www.mdpi.com/1424-2818/3/2/217/pdf}}</ref><ref name="Ayotte08">{{cite journal | last1=Ayotte | first1=J. B. | last2=Parker | first2=K. L. | last3=Gillingham | first3=M. P. | title=Use of natural licks by four species of ungulates in northern British Columbia | journal=Journal of Mammalogy | volume=89 | issue=4 | pages=1041–1050 | year=2008 | url=http://www.asmjournals.org/doi/pdf/10.1644/07-MAMM-A-345.1}}</ref> Mineral lick sites play a critical role in the ecology and diversity of organisms that visit these sites, however, little is still understood about the dietary benefits. "The adjectives ‘mineral’ and ‘salt’ bear witness to the common proposition, in the ecological literature, that animals eat soil to satisfy a craving for nutrient minerals, resulting from inadequate forage...However, for wild animals which frequent licks, sodium (Na) is the only mineral identified so far, with strong evidence that an extra supply is indeed needed and sought in some cases."<ref name="Kreulen85">{{cite journal | last1=Kreulen | firs1=D. A. | title=Lick use by large herbivores: A review of benefits and banes of soil consumption | journal=Mammal Rev. | volume=15 | issue=3 | pages=107-123 | doi=10.1111/j.1365-2907.1985.tb00391.x | url=http://onlinelibrary.wiley.com/doi/10.1111/j.1365-2907.1985.tb00391.x/abstract}}</ref>{{rp|107}} Nonetheless, many studies have identified other uses and nutritional benefits from other micronutrients that exist at these sites, including [[Selenium]] (Se), [[Cobolt]] (Co) and/or [[Molbenium]] (Mo).<ref name="Mills06">{{cite journal | last1=Mills | first1=A. | last2=Milewski | first2=A. | title=Geophagy and nutrient supplementation in the Ngorongoro Conservation Area, Tanzania, with particular reference to selenium, cobalt and molybdenum | journal=Journal of Zoology | volume=271 | issue=1 | pages=110-118 | year=2007 | doi=10.1111/j.1469-7998.2006.00241.x | url=http://onlinelibrary.wiley.com/doi/10.1111/j.1469-7998.2006.00241.x/abstract}}</ref><ref name="Ayotte06">{{cite journal | last1=Ayotte | first1=J. B. | last2=Parker | first2=K. L. | last3=Arocena | first3=J. M. | last4=Gillingham | first4=M. P. | title=Chemical composition of lick soils: Functions of soil ingestion by four ungulate species | journal=Journal of Mammalogy | volume=87 | issue=5 | pages=878–888 | year=2006 | url=http://www.asmjournals.org/doi/pdf/10.1644/06-MAMM-A-055R1.1}}</ref> In addition to the utilization of mineral licks, many animals suffer from traffic collisions as they gather to lick salts accumulated on road surfaces. Animals also consume dirt ([[geophagy]]) to obtain minerals, such as Canadian moose mining for minerals from the root wad's off fallen trees.<ref name="Rea07">{{cite journal | last1=Rea | first1=R. | title=Mining and geophagy of root wad soils by moose in winter | journal=Wildlife Afield | volume=4 | issue=1 | pages=86-87 | url=http://www.wildlifebc.org/UserFiles/File/4_1_Rea.pdf}}</ref><ref name="Klassen08">{{cite journal | last1=Klassen | first1=N. A. | last2=Rea | first2=R. V. | title=What do we know about nocturnal activity of moose? | journal=Alces | volume=44 | pages=101-109 | year=2008 | url=http://alcesjournal.org/index.php/alces/article/view/40/39}}</ref>


==Artificial salt licks==
==Artificial salt licks==

Revision as of 21:25, 17 June 2011

"Salt lick" redirects here. For other uses, see Salt lick (disambiguation).
Gaur at a natural salt lick

A mineral lick (also known as salt lick or natural lick) is a natural mineral deposit where animals in nutrient-poor ecosystems can obtain essential mineral nutrients. In an ecosystem, salt/mineral licks often occur naturally, providing the sodium, calcium, iron, phosphorus and zinc required in the springtime for bone, muscle and other growth in deer and other wildlife, such as moose, elephants, cattle, woodchucks, domestic sheep, fox squirrels, mountain goats and porcupines. Harsh weather exposes salty mineral deposits that draw animals from miles away for a taste of needed nutrients. It is thought that certain fauna can detect calcium in salt licks.[1]

Overview

Many animals regularly visit mineral licks to consume clay where they supplement their diet with mineral elements, nutrients, salts. Some animals require the minerals at these sites not for nutrition, but to ward off the effects of secondary compounds that are included in the arsenal of plant defences against herbivory.[2] The mineral contents of these sites usually contain calcium, magnesium, phosphorus, potassium, and sodium.[3][4][5] Mineral lick sites play a critical role in the ecology and diversity of organisms that visit these sites, however, little is still understood about the dietary benefits. "The adjectives ‘mineral’ and ‘salt’ bear witness to the common proposition, in the ecological literature, that animals eat soil to satisfy a craving for nutrient minerals, resulting from inadequate forage...However, for wild animals which frequent licks, sodium (Na) is the only mineral identified so far, with strong evidence that an extra supply is indeed needed and sought in some cases."[6]: 107  Nonetheless, many studies have identified other uses and nutritional benefits from other micronutrients that exist at these sites, including Selenium (Se), Cobolt (Co) and/or Molbenium (Mo).[7][8] In addition to the utilization of mineral licks, many animals suffer from traffic collisions as they gather to lick salts accumulated on road surfaces. Animals also consume dirt (geophagy) to obtain minerals, such as Canadian moose mining for minerals from the root wad's off fallen trees.[9][10]

Artificial salt licks

Block of salt mounted on a post

People use salt licks to attract or maintain wildlife, whether it be for viewing, photography, farming, or hunting purposes.

In American history

The indigenous people of America and the Long Hunters watched salt licks to hunt game. Many became well known including Bledsoe lick in Sumner County, Tennessee, the Blue lick in central Kentucky, the French lick in southern Indiana, and the Blackwater lick. [1]

Mythology

In Norse mythology, before the creation of the world, it was the divine cow Audhumla who, through her licking of the cosmic salt ice, gave form to Buri, ancestor of the gods and grandfather of Odin. On the first day as Audhumla licked, Buri's hair appeared from the ice, on the second day his head and on the third his body.[11]

References

  1. ^ C. Michael Hogan. 2010. Calcium. eds. A.Jorgensen, C.Cleveland. Encyclopedia of Earth. National Council for Science and the Environment.
  2. ^ Voigt, C. C.; Capps, K. A.; Dechmann, D. K. N.; Michner, R. H.; Kunz, T. H. (2008). "Nutrition or detoxification: Why bats visit mineral licks of the Amazonian rainforest". PLoS ONE. 3 (4): e2011. doi:10.1371/journal.pone.0002011.{{cite journal}}: CS1 maint: unflagged free DOI (link)
  3. ^ Emmons, L. H.; Stark, N. M. (1979). "Elemental composition of a natural mineral lick in Amazonia". Biotropica. 11 (4): 311–313.
  4. ^ Black, J. G.; Mosquera, D.; Guerra; Loiselle, B. A.; Romo, D.; Swing, K. (2011). "Mineral licks as diversity hotspots in lowland forest of eastern Ecuador". Diversity. 3 (2): 217–234. doi:10.3390/d3020217. {{cite journal}}: Unknown parameter |fist3= ignored (help)CS1 maint: unflagged free DOI (link)
  5. ^ Ayotte, J. B.; Parker, K. L.; Gillingham, M. P. (2008). "Use of natural licks by four species of ungulates in northern British Columbia". Journal of Mammalogy. 89 (4): 1041–1050.
  6. ^ Kreulen. "Lick use by large herbivores: A review of benefits and banes of soil consumption". Mammal Rev. 15 (3): 107–123. doi:10.1111/j.1365-2907.1985.tb00391.x. {{cite journal}}: Unknown parameter |firs1= ignored (help)
  7. ^ Mills, A.; Milewski, A. (2007). "Geophagy and nutrient supplementation in the Ngorongoro Conservation Area, Tanzania, with particular reference to selenium, cobalt and molybdenum". Journal of Zoology. 271 (1): 110–118. doi:10.1111/j.1469-7998.2006.00241.x.
  8. ^ Ayotte, J. B.; Parker, K. L.; Arocena, J. M.; Gillingham, M. P. (2006). "Chemical composition of lick soils: Functions of soil ingestion by four ungulate species". Journal of Mammalogy. 87 (5): 878–888.
  9. ^ Rea, R. "Mining and geophagy of root wad soils by moose in winter" (PDF). Wildlife Afield. 4 (1): 86–87.
  10. ^ Klassen, N. A.; Rea, R. V. (2008). "What do we know about nocturnal activity of moose?". Alces. 44: 101–109.
  11. ^ Prose Edda by Snorri Sturluson

Further reading

  • Kurlansky, Mark (2002). Salt: A World History.Walker and Co. ISBN 0-8027-1373-4.
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