User:AlexD/.appliedgeography

From Wikipedia, the free encyclopedia

True-color image of the Earth's surface and atmosphere

Physical geography (also know as geosystems or physiography) is one of the two major subfields of geography. Physical geography focuses on understanding the processes and patterns in the natural environment, as opposed to the built environment which is the domain of Human geography. Within the body of physical geography the Earth is often split either into several spheres or into different environments, with the main spheres being the; Atmosphere, Biosphere, Cryosphere, Geosphere, Hydrosphere, Lithosphere and Pedosphere. Within physical geography there are various fields of study, mainly but not exclusively focusing on the spheres of the earth. Research in physical geography is often interdisciplinary and uses the systems approach.

1 Philosophy & History of Physical geography
2 Fields of physical geography
3 Physical geography literature
4 List of notable physical geographers
5 See also
6 Further reading
7 References
8 External links

[edit] Philosophy & History of Physical geography

“	Whenever anyone mentions theory to a geomorphologist, he instinctively reaches for his soil auger.	”
	— Richard Chorley 1978^[1]

Topics:

Foundations - Greek, Roman, Arab and Muslim.
Pre-renaissance - Natural History, Theological constraints and mysticism.
Age of Enlightenment - Geology, Catastrophism, Neptunism, Uniformitarianism, Diluvialist, Anti-diluvialist, Structuralist (erosional & catastrophist), Fluvilist, Marine planionist, Darwin & Glacial Theory.
American Geomorphology - Davis and Gilbert (induction vs deduction).
Positivist - Empiricism, Phenomenology, Rationalism, Logical positivism, Critical rationalism, falsification, paradigms, pluralism and realism.
Quantitative revolution - Positivism, Hartshore-Schafer debate, Systems, Actualism, Ergodic and emergence.
Time in geography - cyclic, graded and steady concepts of equilibrium, equfinality etc.

[edit] Fields of physical geography

A natural arch

Geomorphology is the science concerned with understanding the surface of the Earth and the processes by which it is shaped, both at the present as well as in the past. Geomorphology as a field has several sub-fields that deal with the specific landforms of various environments e.g. desert geomorphology and fluvial geomorphology, however, these sub-fields are united by the core processes which cause them; mainly tectonic or climatic processes. Geomorphology seeks to understand landform history and dynamics, and predict future changes through a combination of field observation, physical experiment, and numerical modeling (Geomorphometry). Early studies in geomorphology are the foundation for pedology, one of two main branches of soil science.

Meander formation

Hydrology is predominantly concerned with the amounts and quality of water moving and accumulating on the land surface and in the soils and rocks near the surface and is typified by the hydrological cycle. Thus the field encompasses water in rivers, lakes, aquifers and to an extent glaciers, in which the field examines the process and dynamics involved in these bodies of water. Hydrology originated from engineering and has thus developed a largely quantitative method in its research, however, it does have an earth science side that embraces the systems approach. Similar to most fields of physical geography it has sub-fields that examine the specific bodies of water or their interaction with other spheres e.g. limnology and ecohydrology.

Alpine glacier

Glaciology is the study of glaciers and ice sheets, or more commonly the cryosphere or ice and phenomena that involve ice. Glaciology groups the latter (ice sheets) as continental glaciers and the former (glaciers) as alpine glaciers. Although, research in the areas are similar with research undertaken into both the dynamics of ice sheets and glaciers the latter tends to be concerned with the interaction of ice sheets with the present climate and the latter with the impact of glaciers on the landscape. Glaciology also has a vast array of sub-fields examining the factors and processes involved in ice sheets and glaciers e.g. snow hydrology and glacial geology.

Wallace line

Biogeography is the science which deals with geographic patterns of species distribution and the processes that result in these patterns. Biogeography emerged as a field of study as a result of the work of Alfred Russel Wallace, although the field prior to the late twentieth century had largely been viewed as historic in its outlook and descriptive in its approach. The main stimulus for the field since its founding has been that of evolution, plate tectonics and the theory of island biogeography. The field can largely be divided into five sub-fields: island biogeography, paleobiogeography, phylogeography, zoogeography and phytogeography

Climate trends

Climatology is the study of the climate, scientifically defined as weather conditions averaged over a long period of time. As opposed to meteorology which studies atmospheric processes over a shorter duration, which are then examined by climatologist to find trends and frequencies in weather patterns/ phenomena. Climatology, examines both the nature of micro (local) and macro (global) climates and the natural and anthropogenic influences on them. The field is also sub-divided largely into the climates of various regions and the study of specific phenomena or time periods e.g. tropical cyclone rainfall climatology and paleoclimatology.

Nitrogen Cycle

Pedology is the study of soils in its natural environment. It is one of two main branches of soil science, the other being edaphology. Pedology mainly deals with pedogenesis, soil morphology, soil classification. In physical geography pedology is largely studied due to the numerous interactions between climate (water, air, temperature), soil life (micro-organisms, plants, animals), the mineral materials within soils (biogeochemical cycles) and its position and effects on the landscape such as laterization.

High-energy Coastline

Coastal geography is the study of the dynamic interface between the ocean and the land, incorporating both the physical geography (i.e coastal geomorphology, geology and oceanography) and the human geography of the coast. It involves an understanding of coastal weathering processes, particularly wave action, sediment movement and weathering, and also the ways in which humans interact with the coast. Coastal geography although predominantly geomorphological in its research is not just concerned with coastal landforms, but also the causes and influences of sea level change.

Thermohaline circulation

Oceanography is the branch of physical geography that studies the Earth's oceans and seas. It covers a wide range of topics, including marine organisms and ecosystem dynamics (biological oceanography); ocean currents, waves, and geophysical fluid dynamics (physical oceanography); plate tectonics and the geology of the sea floor (geological oceanography); and fluxes of various chemical substances and physical properties within the ocean and across its boundaries (chemical oceanography). These diverse topics reflect multiple disciplines that oceanographers blend to further knowledge of the world ocean and understanding of processes within it.

Quaternary science is an inter-disciplinary field of study focusing on the Quaternary period, which encompasses the last 2.6 million years. The field studies the last ice age and the recent interstadial the Holocene and uses proxy evidence to reconstruct the past environments during this period to infer the climatic and environmental changes that have occurred.

Palaeogeography is the study of the distribution of the continents through geologic time through examining the preserved material in the stratigraphic record. Palaeogeography is a cross-discipline, almost all the evidence for the positions of the continents comes from geology in the form of fossils or geophysics the use of this data has resulted in evidence for continental drift, plate tectonics and supercontinents this in turn has supported palaeogeographic theories such as the Wilson cycle.

Landscape ecology is a sub-discipline of ecology and geography that address how spatial variation in the landscape affects ecological processes such as the distribution and flow of energy, materials and individuals in the environment (which, in turn, may influence the distribution of landscape "elements" themselves such as hedgerows). The field was largely founded by the German geographer Carl Troll Landscape ecology typically deals with problems in an applied and holistic context. The main difference between biogeography and landscape ecology is that the latter is concerned with how flows or energy and material are changed and their impacts on the landscape whereas the former is concerned with the spatial patterns of species and chemical cycles.

Geomatics is the filed of gathering, storing, processing, and delivering of geographic informatio], or spatially referenced information. Geomatrics includes geodesy (scientific discipline that deals with the measurement and representation of the earth, its gravitational field, and other geodynamic phenomena, such as crustal motion, oceanic tides, and polar motion) and G.I.S. (a system for capturing, storing, analyzing and managing data and associated attributes which are spatially referenced to the earth) and remote sensing (the short or large-scale acquisition of information of an object or phenomenon, by the use of either recording or real-time sensing device(s) that is not in physical or intimate contact with the object).

Environmental geography is a branch of geography that describes the spatial aspects of interactions between humans and the natural world. The branch bridges the divide between human and physical geography and thus requires an understanding of the dynamics of geology, meteorology, hydrology, biogeography, and geomorphology, as well as the ways in which human societies conceptualize the environment. Although the branch was previously more visible in research than at present with theories such as environmental determinism linking society with the environment. It has largely become the domain of the study of environmental management or anthropogenic influences on the environment and vice a versa.

[edit] Physical geography literature

Physical geography and Earth Science journals communicate and document the results of research carried out in universities and various other research institutions. Most journals cover a specific field and publish the research within that field, however unlike human geographers, physical geographers tend to publish in inter-disciplinary journals rather than predominantly geography journal; the research is normally expressed in the form of a scientific paper. Additionally, textbooks books and magazines on geography communicate research to laypeople, although these tend to focus on environmental issues or cultural dilemas.Examples of journals that publish articles from physical geographers are:

[edit] List of notable physical geographers

Main article: List of geographers

Alexander Von Humboldt - considered to be the founding father of physical geography

Eratosthenes (276BC - 194BC) - calculated the size of the Earth.
Ptolemy (c.90–c.168) - compiled Greek and Roman knowledge into the book Geographia.
Gerardus Mercator (1512-1594) - innovative cartographer produced the mercator projection
Alexander Von Humboldt (1769–1859) - Considered Father of modern geography, published the Kosmos and founder of the sub-field biogeography.
Arnold Henry Guyot (1807-1884) - noted the structure of glaciers and advanced understanding in glacier motion, especially in fast ice flow.
Louis Agassiz (1807 - 1873) - Author of glacial theory which disputed steady cooling earth.
Alfred Russel Wallace - founder of modern biogeography and the Wallace line
Walther Penck (1888 -1923) - proponent of the cycle of erosion and that process of uplift and denudation occur simultaneously.
William Morris Davis (1850-1934) - father of American geography and developer of the cycle of erosion.
Sir Ernest Shackleton (1874 - 1994) - Antarctic explorer and Heroic Age of Antarctic Exploration
Robert E. Horton (1875 - 1945) - founder of modern hydrology and concepts such as infiltration capacity and overland flow.
J Harlen Bretz (1882 - 1981) - pioneer of catastrophic floods in shaping the landscape and Bretz floods.
Willi Dansgaard (1922) - Palaeoclimatologist and quaternary scientist, instrumental in the use of oxygen isotope dating and co-founder of Dansgaard-Oeschger event.
Hans Oeschger (1927 - 1998) - Palaeoclimatologist and pioneer in ice core research also co-founder of Dansgaard-Orschger events.
Richard Chorley (1927 - 2002) - instrumental in bringing systems theory into geography and a key player in the quantitative revolution.
Sir Nicholas Shackleton (1937 - 2006) - demonstrated that oscillations in climate over the past few million years could be correlated with variations in the orbital and positional relationship between the Earth and the Sun.
Stefan Rahmstorf (b 1960) - Professor of abrupt climate changes and author on theories of thermohaline dynamics.

[edit] See also

[edit] Further reading

Smithson, Peter; et al (2002). Fundamentals of the Physical Environment. Routledge, London.
Holden, Joseph (2004). Introduction to Physical Geography and the Environment. Prentice-Hall, London.
Summerfield, Mike (1991). Global Geomorphology. Longman , London.
Wainwright, John; Mulligan, M. (2003). Environmental Modelling: Finding Simplicity in Complexity. John Wiley and Sons Ltd, London.
Inkpen, Robert (2004). Science, Philosophy and Physical Geography. Routledge, London.

[edit] References

^ Richard Chorley. (1978). The Bases of theory in geomorphology. Quoted in Embleton, Clifford (1978). Geomorphology: Present Problems and Future Prospects. Oxford: Oxford University Press, p. 10.