Bog

A bog or bogland is a wetland that accumulates peat, a deposit of dead plant material—often mosses, and in a majority of cases, sphagnum moss.[1] It is one of the four main types of wetlands. Other names for bogs include mire, mosses, quagmire, and muskeg; alkaline mires are called fens. A baygall is another type of bog found in the forest of the Gulf Coast states in the USA.[2][3] They are often covered in heath or heather shrubs rooted in the sphagnum moss and peat. The gradual accumulation of decayed plant material in a bog functions as a carbon sink.[4][5]

Precipitation accumulates in many bogs, forming bog pools, such as Koitjärve bog in Estonia.
A raised bog in Ķemeri National Park, Jūrmala, Latvia, formed approximately 10,000 years ago in the postglacial period and now a tourist attraction.

Bogs occur where the water at the ground surface is acidic and low in nutrients. In some cases, the water is derived entirely from precipitation, in which case they are termed cloud-fed. Water flowing out of bogs has a characteristic brown colour, which comes from dissolved peat tannins. In general, the low fertility and cool climate result in relatively slow plant growth, but decay is even slower owing to the saturated soil. Hence, peat accumulates. Large areas of the landscape can be covered many meters deep in peat.[1][6]

Bogs have distinctive assemblages of animal, fungal and plant species, and are of high importance for biodiversity, particularly in landscapes that are otherwise settled and farmed.

Distribution and extent

Carnivorous plants, such as this Sarracenia purpurea pitcher plant of the eastern seaboard of North America, are often found in bogs. Capturing insects provides nitrogen and phosphorus, which are usually scarce in such conditions.

Bogs are widely distributed in cold, temperate climes, mostly in boreal ecosystems in the Northern Hemisphere. The world's largest wetland is the peat bogs of the Western Siberian Lowlands in Russia, which cover more than a million square kilometres.[7] Large peat bogs also occur in North America, particularly the Hudson Bay Lowland and the Mackenzie River Basin.[7] They are less common in the Southern Hemisphere, with the largest being the Magellanic moorland, comprising some 44,000 square kilometres (17,000 sq mi). Sphagnum bogs were widespread in northern Europe[8] but have often been cleared and drained for agriculture.[9]

A 2014 expedition leaving from Itanga village, Republic of the Congo, discovered a peat bog "as big as England" which stretches into neighboring Democratic Republic of Congo.[10]

Habitats

An expanse of wet Sphagnum bog in Frontenac National Park, Quebec, Canada. Spruce trees can be seen on a forested ridge in the background.

There are many highly specialized animals, fungi, and plants associated with bog habitat. Most are capable of tolerating the combination of low nutrient levels and waterlogging.[1](chapter 3) Sphagnum is generally abundant, along with ericaceous shrubs. The shrubs are often evergreen, which is understood to assist in conservation of nutrients.[11] In drier locations, evergreen trees can occur, in which case the bog blends into the surrounding expanses of boreal evergreen forest.[12] Sedges are one of the more common herbaceous species. Carnivorous plants such as sundews (Drosera) and pitcher plants (for example Sarracenia purpurea) have adapted to the low-nutrient conditions by using invertebrates as a nutrient source. Orchids have adapted to these conditions through the use of mycorrhizal fungi to extract nutrients.[1]:88 Some shrubs such as Myrica gale (bog myrtle) have root nodules in which nitrogen fixation occurs, thereby providing another supplemental source of nitrogen.[13]

Many species of evergreen shrub are found in bogs, such as Labrador tea.

Bogs are recognized as a significant/specific habitat type by a number of governmental and conservation agencies. They can provide habitat for mammals, such as caribou, moose, and beavers, as well as for species of nesting shorebirds, such as Siberian cranes and yellowlegs. The United Kingdom in its Biodiversity Action Plan establishes bog habitats as a priority for conservation. Russia has a large reserve system in the West Siberian Lowland.[14] The highest protected status occurs in Zapovedniks (IUCN category IV); Gydansky[15] and Yugansky are two prominent examples. Bogs even have distinctive insects; English bogs give a home to a yellow fly called the hairy canary fly (Phaonia jaroschewskii), and bogs in North America are habitat for a butterfly called the bog copper (Lycaena epixanthe). In Ireland, the viviparous lizard, the only known reptile in the country, dwells in bogland.

Types

Bog habitats may develop in various situations, depending on the climate and topography[16] (see also hydrosere succession).

By location and water source

One way of classifying bogs is based upon their location in the landscape, and their source of water.[17]

Valley bog

These develop in gently sloping valleys or hollows. A layer of peat fills the deepest part of the valley, and a stream may run through the surface of the bog. Valley bogs may develop in relatively dry and warm climates, but because they rely on ground or surface water, they only occur on acidic substrates.

Raised bog

Viru Bog in Lahemaa National Park, Estonia, which is rich in raised bogs.

These develop from a lake or flat marshy area, over either non-acidic or acidic substrates. Over centuries there is a progression from open lake, to a marsh, to a fen (or on acidic substrates, valley bog), to a carr, as silt or peat accumulates within the lake. Eventually, peat builds up to a level where the land surface is too flat for ground or surface water to reach the center of the wetland. This part, therefore, becomes wholly rain-fed (ombrotrophic), and the resulting acidic conditions allow the development of bog (even if the substrate is non-acidic). The bog continues to form peat, and over time a shallow dome of bog peat develops into a raised bog. The dome is typically a few meters high in the center and is often surrounded by strips of fen or other wetland vegetation at the edges or along streamsides where groundwater can percolate into the wetland.

The various types of raised bog may be divided into:

Blanket bog

Sphagnum moss and sedges can produce floating bog mats along the shores of small lakes. This bog in Duck Lake, Oregon also supports a carnivorous plant, sundew.
Blanket bog in Connemara, Ireland

In cool climates with consistently high rainfall (on more than c. 235 days a year), the ground surface may remain waterlogged for much of the time, providing conditions for the development of bog vegetation. In these circumstances, bog develops as a layer "blanketing" much of the land, including hilltops and slopes.[18] Although a blanket bog is more common on acidic substrates, under some conditions it may also develop on neutral or even alkaline ones, if abundant acidic rainwater predominates over the groundwater. A blanket bog cannot occur in drier or warmer climates, because under those conditions hilltops and sloping ground dry out too often for peat to form – in intermediate climates a blanket bog may be limited to areas which are shaded from direct sunshine. In periglacial climates a patterned form of blanket bog may occur, known as a string bog. In Europe, these mostly very thin peat layers without significant surface structures are distributed over the hills and valleys of Ireland, Scotland, England and Norway. In North America, blanket bogs occur predominantly in Canada east of Hudson Bay. These bogs are often still under the influence of mineral soil water (groundwater). Blanket bogs do not occur north of the 65th latitude in the northern hemisphere.

Quaking bog

A quaking bog is a form of bog occurring in wetter parts of valley bogs and raised bogs and sometimes around the edges of acidic lakes. The bog vegetation, mostly sphagnum moss anchored by sedges (such as Carex lasiocarpa), forms a floating mat approximately half a meter thick on the surface of the water or on top of very wet peat. White spruces are also common in this bog regime. Walking on the surface causes it to move – larger movements may cause visible ripples on the surface, or they may even make trees sway. In the absence of disturbance from waves, the bog mat may eventually cover entire bays or even entire small lakes. Bogs at the edges of lakes may become detached and form floating islands.[19]

Cataract bog

A cataract bog is a rare ecological community formed where a permanent stream flows over a granite outcropping. The sheeting of water keeps the edges of the rock wet without eroding the soil, but in this precarious location, no tree or large shrub can maintain a roothold. The result is a narrow, permanently wet habitat.

By nutrient content

Bogs may also be classified by the nutrient content of the peat.

Eutrophic bog

A eutrophic bog, also called a minerotrophic bog, is one that lies on top of fen-peat. As a result, its water is rich in nutrients. They are found in temperate regions. Fens are an example of this kind of bog.[20]

Mesotrophic bog

A mesotrophic bog, also called a transitional peat bog, contains a moderate quantity of nutrients.[20]

Oligotrophic bog

Oligotrophic bogs occur where the groundwater is poor in nutrients e.g. in wetlands with nutrient-poor soils. They occur in several variants: raised bogs, soligenic bogs and blanket bog.[20]

Uses

Tourism uses

Ķemeri National Park Bog in Jūrmala, Latvia, with a boardwalk path visible

The Great Kemeri Bog Boardwalk is a tourist destination in Ķemeri National Park, Jūrmala, Latvia, offering visitors a chance to explore the bog and its inhabitants. Short (1.4 kilometres (0.87 mi)) and long (3.4 kilometres (2.1 mi)) boardwalk trails are present, with an observation platform popular with photographers for sunrise and sunset scenes.[21]

Industrial uses

Sitniki peat bog in Russia recultivated after industrial use.

After drying, peat is used as a fuel, and it has been used that way for centuries. More than 20% of home heat in Ireland comes from peat, and it is also used for fuel in Finland, Scotland, Germany, and Russia. Russia is the leading exporter of peat for fuel, at more than 90 million metric tons per year. Ireland's Bord na Móna ("peat board") was one of the first companies to mechanically harvest peat, which is being phased out.[22]

The other major use of dried peat is as a soil amendment (sold as moss peat or sphagnum peat) to increase the soil's capacity to retain moisture and enrich the soil.[4] It is also used as a mulch. Some distilleries, notably in the Islay whisky-producing region, use the smoke from peat fires to dry the barley used in making Scotch whisky.

Once the peat has been extracted it can be difficult to restore the wetland, since peat accumulation is a slow process.[4][23][24] More than 90% of the bogs in England have been damaged or destroyed.[25][26] In 2011 plans for the elimination of peat in gardening products were announced by the UK government.[4]

Other uses

The peat in bogs is an important place for the storage of carbon. If the peat decays, carbon dioxide would be released to the atmosphere, contributing to global warming. Undisturbed, bogs function as a carbon sink.[4][27][28] As one example, the peatlands of the former Soviet Union were calculated to be removing 52 Tg of carbon per year from the atmosphere.[14]:41

Therefore, the rewetting of drained peatlands may be one of the most cost-effective ways to mitigate climate change.[29]

Peat bogs are also important in storing fresh water, particularly in the headwaters of large rivers. Even the enormous Yangtze River arises in the Ruoergai peatland near its headwaters in Tibet.[1](fig. 13.8)

Blueberries, cranberries, cloudberries, huckleberries, and lingonberries are harvested from the wild in bogs. Bog oak, wood that has been partially preserved by bogs, has been used in the manufacture of furniture.

Sphagnum bogs are also used for outdoor recreation, with activities including ecotourism and hunting. For example, many popular canoe routes in northern Canada include areas of peatland. Some other activities, such as all-terrain vehicle use, are especially damaging to bogs.

Archaeology

The anaerobic environment and presence of tannic acids within bogs can result in the remarkable preservation of organic material. Finds of such material have been made in Slovenia, Denmark, Germany, Ireland, Russia, and the United Kingdom. Some bogs have preserved bog-wood such as ancient oak logs useful in dendrochronology, and they have yielded extremely well preserved bog bodies, with hair, organs, and skin intact, buried there thousands of years ago after apparent Germanic and Celtic human sacrifice. Excellent examples of such human specimens are Haraldskær Woman and Tollund Man in Denmark,[30] and Lindow man found at Lindow Common in England. At Céide Fields in County Mayo in Ireland, a 5,000-year-old neolithic farming landscape has been found preserved under a blanket bog, complete with field walls and hut sites. One ancient artifact found in various bogs is bog butter, large masses of fat, usually in wooden containers. These are thought to have been food stores, of both butter and tallow.

See also

References

  1. Keddy, P.A. (2010). Wetland Ecology: Principles and Conservation (2nd ed.). Cambridge University Press. ISBN 978-0521739672.
  2. Watson, Geraldine Ellis (2000) Big Thicket Plant Ecology: An Introduction, Third Edition (Temple Big Thicket Series #5). University of North Texas Press. Denton, Texas. 152 pp. ISBN 978-1574412147
  3. Texas Parks and Wildlife. Ecological Mapping systems of Texas: West Gulf Coastal Plain Seepage Swamp and Baygall. Retrieved 7 July 2020
  4. "British Soil Is Battlefield Over Peat, for Bogs' Sake". The New York Times. 6 October 2012. Archived from the original on 7 October 2012. Retrieved 7 October 2012.
  5. "Peatlands and climate change". IUCN. 6 November 2017. Retrieved 15 August 2019.
  6. Gorham, E. (1957). "The development of peatlands". Quarterly Review of Biology. 32 (2): 145–66. doi:10.1086/401755. S2CID 129085635.
  7. Fraser, L.H.; Keddy, P.A., eds. (2005). The World's Largest Wetlands: Ecology and Conservation. Cambridge, UK: Cambridge University Press. ISBN 9780521834049.
  8. Adamovich, Alexander (2005). "Country Pasture/Forage Resource Profiles: Latvia". Food and Agriculture Organization of the United Nations.
  9. Swindles, Graeme T.; Morris, Paul J.; Mullan, Donal J.; Payne, Richard J.; Roland, Thomas P.; Amesbury, Matthew J.; Lamentowicz, Mariusz; Turner, T. Edward; Gallego-Sala, Angela; Sim, Thomas; Barr, Iestyn D. (21 October 2019). "Widespread drying of European peatlands in recent centuries". Nature Geoscience. 12 (11): 922–928. Bibcode:2019NatGe..12..922S. doi:10.1038/s41561-019-0462-z. ISSN 1752-0908. S2CID 202908362. Alt URL
  10. Smith, David (27 May 2014). "Peat bog as big as England found in Congo". The Guardian. Retrieved 31 May 2014.
  11. Keddy, P.A. (2007). Plants and Vegetation: Origins, Processes, Consequences. Cambridge, UK: Cambridge University Press. ISBN 978-0521864800.
  12. Archibold, O.W. (1995). Ecology of World Vegetation. London: Chapman and Hall. ISBN 978-0-412-44290-2.
  13. Bond, G. (1985). Salisbury, F.B.; Ross, C.W. (eds.). Plant Physiology (Wadsworth biology series) (3rd ed.). Belmont, CA: Brooks/Cole. p. 254. ISBN 0534044824. See figure 13.3.
  14. Solomeshch, A.I. (2005). "The West Siberian Lowland". In Fraser, L.H.; Keddy, P.A. (eds.). The World's Largest Wetlands: Ecology and Conservation. Cambridge, UK: Cambridge University Press. pp. 11–62. ISBN 9780521834049.
  15. "Russian Zapovedniks and National Parks". Russian Nature. Archived from the original on 11 March 2018. Retrieved 8 March 2018.
  16. Glaser, P.H. (1992). "Raised bogs in eastern North America: regional controls for species richness and floristic assemblages". Journal of Ecology. 80 (3): 535–54. doi:10.2307/2260697. JSTOR 2260697.
  17. Damman, A.W.H. (1986). "Hydrology, development, and biogeochemistry of ombrogenous bogs with special reference to nutrient relocation in a western Newfoundland bog". Canadian Journal of Botany. 64: 384–94. doi:10.1139/b86-055.
  18. van Breeman, N. (1995). "How Sphagnum bogs down [sic] other plants". Trends in Ecology and Evolution. 10 (7): 270–275. doi:10.1016/0169-5347(95)90007-1. PMID 21237035.
  19. Appleton, Andrea (6 March 2018). "How Do You Solve a Problem Like a Giant Floating Bog?". Atlas Obscura. Retrieved 8 March 2018.
  20. Walter, Heinrich; Breckle, Siegmar-W. (2012). Ecological Systems of the Geobiosphere: 3 Temperate and 3 Polar Zonobiomes of Northern Eurasia. Stuttgart: Springer. pp. 463–464. ISBN 978-3-642-70162-7.
  21. "Great Kemeri Bog Boardwalk". Latvia Travel. Archived from the original on 21 December 2017. Retrieved 21 December 2017.
  22. de Róiste, Daithí. "Bord na Móna announces biggest change of land use in modern Irish history". Bord na Móna. Bord na Móna. Archived from the original on 7 October 2015. Retrieved 6 October 2015.
  23. Campbell, D.R.; Rochefort, L. (2003). "Germination and seedling growth of bog plants in relation to the recolonization of milled peatlands". Plant Ecology. 169: 71–84. doi:10.1023/A:1026258114901. S2CID 42590665.
  24. Cobbaert, D.; Rochefort, L.; Price, J.S. (2004). "Experimental restoration of a fen plant community after peat mining". Applied Vegetation Science. 7 (2): 209–20. doi:10.1111/j.1654-109X.2004.tb00612.x.
  25. "Insight into threatened peat bogs". BBC News. 31 July 2004. Archived from the original on 24 October 2007. Retrieved 8 March 2018.
  26. "Destruction of peat bogs". RSPB. Archived from the original on 30 September 2007.
  27. Gorham, E. (1991). "Northern peatlands role in the carbon cycle and probable responses to climatic warming". Ecological Applications. 1 (2): 182–95. doi:10.2307/1941811. JSTOR 1941811. PMID 27755660.
  28. Loisel, Julie; Gallego-Sala, Angela (21 December 2020). "Guest post: How human activity threatens the world's carbon-rich peatlands". Carbon Brief. Retrieved 1 January 2021.
  29. Mandel, Martti (10 November 2018). "Interview: Rewetting Peatlands to Cut Emissions". EUKI. Retrieved 2 November 2019.
  30. Glob, P.V. (2011). The Bog People: Iron Age Man Preserved. Faber and Faber. ISBN 978-0571270903.

Bibliography

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