fbpx
Wikipedia

Landscape ecology

October 15, 2023

Landscape ecology is the science of studying and improving relationships between ecological processes in the environment and particular ecosystems. This is done within a variety of landscape scales, development spatial patterns, and organizational levels of research and policy.[1][2][3] Concisely, landscape ecology can be described as the science of "landscape diversity" as the synergetic result of biodiversity and geodiversity.[4]

Land cover surrounding Madison, Wisconsin. Fields are colored yellow and brown and urban surfaces are colored red.
Impervious surfaces surrounding Madison, Wisconsin
Canopy cover surrounding Madison, Wisconsin

As a highly interdisciplinary field in systems science, landscape ecology integrates biophysical and analytical approaches with humanistic and holistic perspectives across the natural sciences and social sciences. Landscapes are spatially heterogeneous geographic areas characterized by diverse interacting patches or ecosystems, ranging from relatively natural terrestrial and aquatic systems such as forests, grasslands, and lakes to human-dominated environments including agricultural and urban settings.[2][5][6]

The most salient characteristics of landscape ecology are its emphasis on the relationship among pattern, process and scales, and its focus on broad-scale ecological and environmental issues. These necessitate the coupling between biophysical and socioeconomic sciences. Key research topics in landscape ecology include ecological flows in landscape mosaics, land use and land cover change, scaling, relating landscape pattern analysis with ecological processes, and landscape conservation and sustainability.[7] Landscape ecology also studies the role of human impacts on landscape diversity in the development and spreading of new human pathogens that could trigger epidemics.[8][9]

Terminology Edit

The German term Landschaftsökologie – thus landscape ecology – was coined by German geographer Carl Troll in 1939.[10] He developed this terminology and many early concepts of landscape ecology as part of his early work, which consisted of applying aerial photograph interpretation to studies of interactions between environment and vegetation.

Explanation Edit

Heterogeneity is the measure of how parts of a landscape differ from one another. Landscape ecology looks at how this spatial structure affects organism abundance at the landscape level, as well as the behavior and functioning of the landscape as a whole. This includes studying the influence of pattern, or the internal order of a landscape, on process, or the continuous operation of functions of organisms.[11] Landscape ecology also includes geomorphology as applied to the design and architecture of landscapes.[12] Geomorphology is the study of how geological formations are responsible for the structure of a landscape.

History Edit

Evolution of theory Edit

One central landscape ecology theory originated from MacArthur & Wilson's The Theory of Island Biogeography. This work considered the biodiversity on islands as the result of competing forces of colonization from a mainland stock and stochastic extinction. The concepts of island biogeography were generalized from physical islands to abstract patches of habitat by Levins' metapopulation model (which can be applied e.g. to forest islands in the agricultural landscape[13]). This generalization spurred the growth of landscape ecology by providing conservation biologists a new tool to assess how habitat fragmentation affects population viability. Recent growth of landscape ecology owes much to the development of geographic information systems (GIS)[14] and the availability of large-extent habitat data (e.g. remotely sensed datasets).

Development as a discipline Edit

Landscape ecology developed in Europe from historical planning on human-dominated landscapes. Concepts from general ecology theory were integrated in North America.[when?] While general ecology theory and its sub-disciplines focused on the study of more homogenous, discrete community units organized in a hierarchical structure (typically as ecosystems, populations, species, and communities), landscape ecology built upon heterogeneity in space and time. It frequently included human-caused landscape changes in theory and application of concepts.[15]

By 1980, landscape ecology was a discrete, established discipline. It was marked by the organization of the International Association for Landscape Ecology (IALE) in 1982. Landmark book publications defined the scope and goals of the discipline, including Naveh and Lieberman[16] and Forman and Godron.[17][18] Forman[6] wrote that although study of "the ecology of spatial configuration at the human scale" was barely a decade old, there was strong potential for theory development and application of the conceptual framework.

Today, theory and application of landscape ecology continues to develop through a need for innovative applications in a changing landscape and environment. Landscape ecology relies on advanced technologies such as remote sensing, GIS, and models. There has been associated development of powerful quantitative methods to examine the interactions of patterns and processes.[5] An example would be determining the amount of carbon present in the soil based on landform over a landscape, derived from GIS maps, vegetation types, and rainfall data for a region. Remote sensing work has been used to extend landscape ecology to the field of predictive vegetation mapping, for instance by Janet Franklin.

Definitions/conceptions of landscape ecology Edit

Nowadays, at least six different conceptions of landscape ecology can be identified: one group tending toward the more disciplinary concept of ecology (subdiscipline of biology; in conceptions 2, 3, and 4) and another group—characterized by the interdisciplinary study of relations between human societies and their environment—inclined toward the integrated view of geography (in conceptions 1, 5, and 6):[19]

  1. Interdisciplinary analysis of subjectively defined landscape units (e.g. Neef School[20][21]): Landscapes are defined in terms of uniformity in land use. Landscape ecology explores the landscape's natural potential in terms of functional utility for human societies. To analyse this potential, it is necessary to draw on several natural sciences.
  2. Topological ecology at the landscape scale[22][23] 'Landscape' is defined as a heterogeneous land area composed of a cluster of interacting ecosystems (woods, meadows, marshes, villages, etc.) that is repeated in similar form throughout. It is explicitly stated that landscapes are areas at a kilometres wide human scale of perception, modification, etc. Landscape ecology describes and explains the landscapes' characteristic patterns of ecosystems and investigates the flux of energy, mineral nutrients, and species among their component ecosystems, providing important knowledge for addressing land-use issues.
  3. Organism-centered, multi-scale topological ecology (e.g. John A. Wiens[24][25]): Explicitly rejecting views expounded by Troll, Zonneveld, Naveh, Forman & Godron, etc., landscape and landscape ecology are defined independently of human perceptions, interests, and modifications of nature. 'Landscape' is defined – regardless of scale – as the 'template' on which spatial patterns influence ecological processes. Not humans, but rather the respective species being studied is the point of reference for what constitutes a landscape.
  4. Topological ecology at the landscape level of biological organisation (e.g. Urban et al.[26]): On the basis of ecological hierarchy theory, it is presupposed that nature is working at multiple scales and has different levels of organisation which are part of a rate-structured, nested hierarchy. Specifically, it is claimed that, above the ecosystem level, a landscape level exists which is generated and identifiable by high interaction intensity between ecosystems, a specific interaction frequency and, typically, a corresponding spatial scale. Landscape ecology is defined as ecology that focuses on the influence exerted by spatial and temporal patterns on the organisation of, and interaction among, functionally integrated multispecies ecosystems.
  5. Analysis of social-ecological systems using the natural and social sciences and humanities (e.g. Leser;[27] Naveh;[28][29] Zonneveld[30]): Landscape ecology is defined as an interdisciplinary super-science that explores the relationship between human societies and their specific environment, making use of not only various natural sciences, but also social sciences and humanities. This conception is grounded in the assumption that social systems are linked to their specific ambient ecological system in such a way that both systems together form a co-evolutionary, self-organising unity called 'landscape'. Societies' cultural, social and economic dimensions are regarded as an integral part of the global ecological hierarchy, and landscapes are claimed to be the manifest systems of the 'total human ecosystem' (Naveh) which encompasses both the physical ('geospheric') and mental ('noospheric') spheres.
  6. Ecology guided by cultural meanings of lifeworldly landscapes (frequently pursued in practice[31] but not defined, but see, e.g., Hard;[32] Trepl[19]): Landscape ecology is defined as ecology that is guided by an external aim, namely, to maintain and develop lifeworldly landscapes. It provides the ecological knowledge necessary to achieve these goals. It investigates how to sustain and develop those populations and ecosystems which (i) are the material 'vehicles' of lifeworldly, aesthetic and symbolic landscapes and, at the same time, (ii) meet societies' functional requirements, including provisioning, regulating, and supporting ecosystem services. Thus landscape ecology is concerned mainly with the populations and ecosystems which have resulted from traditional, regionally specific forms of land use.

Relationship to ecological theory Edit

Some research programmes of landscape ecology theory, namely those standing in the European tradition, may be slightly outside of the "classical and preferred domain of scientific disciplines" because of the large, heterogeneous areas of study. However, general ecology theory is central to landscape ecology theory in many aspects. Landscape ecology consists of four main principles: the development and dynamics of spatial heterogeneity, interactions and exchanges across heterogeneous landscapes, influences of spatial heterogeneity on biotic and abiotic processes, and the management of spatial heterogeneity. The main difference from traditional ecological studies, which frequently assume that systems are spatially homogenous, is the consideration of spatial patterns.[33]

Important terms Edit

Landscape ecology not only created new terms, but also incorporated existing ecological terms in new ways. Many of the terms used in landscape ecology are as interconnected and interrelated as the discipline itself.

Landscape Edit

Main article: Landscape

Certainly, 'landscape' is a central concept in landscape ecology. It is, however, defined in quite different ways. For example:[19] Carl Troll conceives of landscape not as a mental construct but as an objectively given 'organic entity', a harmonic individuum of space.[34]Ernst Neef[20][21] defines landscapes as sections within the uninterrupted earth-wide interconnection of geofactors which are defined as such on the basis of their uniformity in terms of a specific land use, and are thus defined in an anthropocentric and relativistic way. According to Richard Forman and Michel Godron,[22] a landscape is a heterogeneous land area composed of a cluster of interacting ecosystems that is repeated in similar form throughout, whereby they list woods, meadows, marshes and villages as examples of a landscape's ecosystems, and state that a landscape is an area at least a few kilometres wide. John A. Wiens[24][25] opposes the traditional view expounded by Carl Troll, Isaak S. Zonneveld, Zev Naveh, Richard T. T. Forman/Michel Godron and others that landscapes are arenas in which humans interact with their environments on a kilometre-wide scale; instead, he defines 'landscape'—regardless of scale—as "the template on which spatial patterns influence ecological processes".[25][35] Some define 'landscape' as an area containing two or more ecosystems in close proximity.[15]

Scale and heterogeneity (incorporating composition, structure, and function) Edit

Main articles: Scale (geography) and Spatial heterogeneity

A main concept in landscape ecology is scale. Scale represents the real world as translated onto a map, relating distance on a map image and the corresponding distance on earth.[36] Scale is also the spatial or temporal measure of an object or a process,[33] or amount of spatial resolution.[6] Components of scale include composition, structure, and function, which are all important ecological concepts. Applied to landscape ecology, composition refers to the number of patch types (see below) represented on a landscape and their relative abundance. For example, the amount of forest or wetland, the length of forest edge, or the density of roads can be aspects of landscape composition. Structure is determined by the composition, the configuration, and the proportion of different patches across the landscape, while function refers to how each element in the landscape interacts based on its life cycle events.[33] Pattern is the term for the contents and internal order of a heterogeneous area of land.[17]

A landscape with structure and pattern implies that it has spatial heterogeneity, or the uneven distribution of objects across the landscape.[6] Heterogeneity is a key element of landscape ecology that separates this discipline from other branches of ecology. Landscape heterogeneity is able to quantify with agent-based methods as well.[37]

Patch and mosaic Edit

See also: Patch dynamics

Patch, a term fundamental to landscape ecology, is defined as a relatively homogeneous area that differs from its surroundings.[6] Patches are the basic unit of the landscape that change and fluctuate, a process called patch dynamics. Patches have a definite shape and spatial configuration, and can be described compositionally by internal variables such as number of trees, number of tree species, height of trees, or other similar measurements.[6]

Matrix is the "background ecological system" of a landscape with a high degree of connectivity. Connectivity is the measure of how connected or spatially continuous a corridor, network, or matrix is.[6] For example, a forested landscape (matrix) with fewer gaps in forest cover (open patches) will have higher connectivity. Corridors have important functions as strips of a particular type of landscape differing from adjacent land on both sides.[6] A network is an interconnected system of corridors while mosaic describes the pattern of patches, corridors, and matrix that form a landscape in its entirety.[6]

Boundary and edge Edit

Main article: Edge effect

Landscape patches have a boundary between them which can be defined or fuzzy.[15] The zone composed of the edges of adjacent ecosystems is the boundary.[6] Edge means the portion of an ecosystem near its perimeter, where influences of the adjacent patches can cause an environmental difference between the interior of the patch and its edge. This edge effect includes a distinctive species composition or abundance.[6] For example, when a landscape is a mosaic of perceptibly different types, such as a forest adjacent to a grassland, the edge is the location where the two types adjoin. In a continuous landscape, such as a forest giving way to open woodland, the exact edge location is fuzzy and is sometimes determined by a local gradient exceeding a threshold, such as the point where the tree cover falls below thirty-five percent.[33]

Ecotones, ecoclines, and ecotopes Edit

Main articles: Ecotone, Ecocline, and Ecotype

A type of boundary is the ecotone, or the transitional zone between two communities.[12] Ecotones can arise naturally, such as a lakeshore, or can be human-created, such as a cleared agricultural field from a forest.[12] The ecotonal community retains characteristics of each bordering community and often contains species not found in the adjacent communities. Classic examples of ecotones include fencerows, forest to marshlands transitions, forest to grassland transitions, or land-water interfaces such as riparian zones in forests. Characteristics of ecotones include vegetational sharpness, physiognomic change, occurrence of a spatial community mosaic, many exotic species, ecotonal species, spatial mass effect, and species richness higher or lower than either side of the ecotone.[38]

An ecocline is another type of landscape boundary, but it is a gradual and continuous change in environmental conditions of an ecosystem or community. Ecoclines help explain the distribution and diversity of organisms within a landscape because certain organisms survive better under certain conditions, which change along the ecocline. They contain heterogeneous communities which are considered more environmentally stable than those of ecotones.[39] An ecotope is a spatial term representing the smallest ecologically distinct unit in mapping and classification of landscapes.[6] Relatively homogeneous, they are spatially explicit landscape units used to stratify landscapes into ecologically distinct features. They are useful for the measurement and mapping of landscape structure, function, and change over time, and to examine the effects of disturbance and fragmentation.

Disturbance and fragmentation Edit

Main articles: Disturbance (ecology) and Habitat fragmentation

Disturbance is an event that significantly alters the pattern of variation in the structure or function of a system. Fragmentation is the breaking up of a habitat, ecosystem, or land-use type into smaller parcels.[6] Disturbance is generally considered a natural process. Fragmentation causes land transformation, an important process in landscapes as development occurs.

An important consequence of repeated, random clearing (whether by natural disturbance or human activity) is that contiguous cover can break down into isolated patches. This happens when the area cleared exceeds a critical level, which means that landscapes exhibit two phases: connected and disconnected.[40]

Theory Edit

Landscape ecology theory stresses the role of human impacts on landscape structures and functions. It also proposes ways for restoring degraded landscapes.[16] Landscape ecology explicitly includes humans as entities that cause functional changes on the landscape.[15] Landscape ecology theory includes the landscape stability principle, which emphasizes the importance of landscape structural heterogeneity in developing resistance to disturbances, recovery from disturbances, and promoting total system stability.[17] This principle is a major contribution to general ecological theories which highlight the importance of relationships among the various components of the landscape.

Integrity of landscape components helps maintain resistance to external threats, including development and land transformation by human activity.[5] Analysis of land use change has included a strongly geographical approach which has led to the acceptance of the idea of multifunctional properties of landscapes.[18] There are still calls for a more unified theory of landscape ecology due to differences in professional opinion among ecologists and its interdisciplinary approach (Bastian 2001).

An important related theory is hierarchy theory, which refers to how systems of discrete functional elements operate when linked at two or more scales. For example, a forested landscape might be hierarchically composed of drainage basins, which in turn are composed of local ecosystems, which are in turn composed of individual trees and gaps.[6] Recent theoretical developments in landscape ecology have emphasized the relationship between pattern and process, as well as the effect that changes in spatial scale has on the potential to extrapolate information across scales.[33] Several studies suggest that the landscape has critical thresholds at which ecological processes will show dramatic changes, such as the complete transformation of a landscape by an invasive species due to small changes in temperature characteristics which favor the invasive's habitat requirements.[33]

Application Edit

Research directions Edit

Developments in landscape ecology illustrate the important relationships between spatial patterns and ecological processes. These developments incorporate quantitative methods that link spatial patterns and ecological processes at broad spatial and temporal scales. This linkage of time, space, and environmental change can assist managers in applying plans to solve environmental problems.[5] The increased attention in recent years on spatial dynamics has highlighted the need for new quantitative methods that can analyze patterns, determine the importance of spatially explicit processes, and develop reliable models.[33] Multivariate analysis techniques are frequently used to examine landscape level vegetation patterns. Studies use statistical techniques, such as cluster analysis, canonical correspondence analysis (CCA), or detrended correspondence analysis (DCA), for classifying vegetation. Gradient analysis is another way to determine the vegetation structure across a landscape or to help delineate critical wetland habitat for conservation or mitigation purposes (Choesin and Boerner 2002).[41]

Climate change is another major component in structuring current research in landscape ecology.[42] Ecotones, as a basic unit in landscape studies, may have significance for management under climate change scenarios, since change effects are likely to be seen at ecotones first because of the unstable nature of a fringe habitat.[38] Research in northern regions has examined landscape ecological processes, such as the accumulation of snow, melting, freeze-thaw action, percolation, soil moisture variation, and temperature regimes through long-term measurements in Norway.[43] The study analyzes gradients across space and time between ecosystems of the central high mountains to determine relationships between distribution patterns of animals in their environment. Looking at where animals live, and how vegetation shifts over time, may provide insight into changes in snow and ice over long periods of time across the landscape as a whole.

Other landscape-scale studies maintain that human impact is likely the main determinant of landscape pattern over much of the globe.[44][45] Landscapes may become substitutes for biodiversity measures because plant and animal composition differs between samples taken from sites within different landscape categories. Taxa, or different species, can "leak" from one habitat into another, which has implications for landscape ecology. As human land use practices expand and continue to increase the proportion of edges in landscapes, the effects of this leakage across edges on assemblage integrity may become more significant in conservation. This is because taxa may be conserved across landscape levels, if not at local levels.[46]

Land change modeling Edit

Land change modeling is an application of landscape ecology designed to predict future changes in land use. Land change models are used in urban planning, geography, GIS, and other disciplines to gain a clear understanding of the course of a landscape.[47] In recent years, much of the Earth's land cover has changed rapidly, whether from deforestation or the expansion of urban areas.[48]

Relationship to other disciplines Edit

Landscape ecology has been incorporated into a variety of ecological subdisciplines. For example, it is closely linked to land change science, the interdisciplinary of land use and land cover change and their effects on surrounding ecology. Another recent development has been the more explicit consideration of spatial concepts and principles applied to the study of lakes, streams, and wetlands in the field of landscape limnology. Seascape ecology is a marine and coastal application of landscape ecology.[49] In addition, landscape ecology has important links to application-oriented disciplines such as agriculture and forestry. In agriculture, landscape ecology has introduced new options for the management of environmental threats brought about by the intensification of agricultural practices. Agriculture has always been a strong human impact on ecosystems.[18]

In forestry, from structuring stands for fuelwood and timber to ordering stands across landscapes to enhance aesthetics, consumer needs have affected conservation and use of forested landscapes. Landscape forestry provides methods, concepts, and analytic procedures for landscape forestry.[50] Landscape ecology has been cited as a contributor to the development of fisheries biology as a distinct biological science discipline,[51] and is frequently incorporated in study design for wetland delineation in hydrology.[39] It has helped shape integrated landscape management.[52] Lastly, landscape ecology has been very influential for progressing sustainability science and sustainable development planning. For example, a recent study assessed sustainable urbanization across Europe using evaluation indices, country-landscapes, and landscape ecology tools and methods.[53]

Landscape ecology has also been combined with population genetics to form the field of landscape genetics, which addresses how landscape features influence the population structure and gene flow of plant and animal populations across space and time[54] and on how the quality of intervening landscape, known as "matrix", influences spatial variation.[55] After the term was coined in 2003, the field of landscape genetics had expanded to over 655 studies by 2010,[56] and continues to grow today. As genetic data has become more readily accessible, it is increasingly being used by ecologists to answer novel evolutionary and ecological questions,[57] many with regard to how landscapes effect evolutionary processes, especially in human-modified landscapes, which are experiencing biodiversity loss.[58]

See also Edit

References Edit

  1. ^ Wu J (January 2006). "Landscape ecology, cross-disciplinarity, and sustainability science". Landscape Ecology. 21 (1): 1–4. doi:10.1007/s10980-006-7195-2. S2CID 27192835.
  2. ^ a b Wu J, Hobbs R, eds. (2007). Key Topics in Landscape Ecology. Cambridge: Cambridge University Press.
  3. ^ Wu J (2008). "Landscape ecology.". In Jorgensen SE (ed.). Encyclopedia of Ecology. Oxford: Elsevier.
  4. ^ Leser H, Nagel P (2001). "Landscape diversity - a holistic approach". Biodiversity. Springer. pp. 129–143. doi:10.1007/978-3-662-06071-1_9. ISBN 978-3-642-08370-9.
  5. ^ a b c d Turner MG, Gardner RH, O'Neill RV (2001). Landscape Ecology in Theory and Practice. New York, NY, USA: Springer-Verlag.
  6. ^ a b c d e f g h i j k l m n Forman RT (1995). Land Mosaics: The Ecology of Landscapes and Regions. Cambridge, UK: Cambridge University Press.
  7. ^ Wu & Hobbs 2002
  8. ^ Bloomfield LS, McIntosh TL, Lambin EF (2020-04-01). "Habitat fragmentation, livelihood behaviors, and contact between people and nonhuman primates in Africa". Landscape Ecology. 35 (4): 985–1000. doi:10.1007/s10980-020-00995-w. ISSN 1572-9761. S2CID 214731443.
  9. ^ Bausch DG, Schwarz L (2014-07-31). "Outbreak of ebola virus disease in Guinea: where ecology meets economy". PLOS Neglected Tropical Diseases. 8 (7): e3056. doi:10.1371/journal.pntd.0003056. PMC 4117598. PMID 25079231.
  10. ^ Troll C (1939). "Luftbildplan und ökologische Bodenforschung" [Aerial photography and ecological studies of the earth]. Zeitschrift der Gesellschaft für Erdkunde (in German). Berlin: 241–298.
  11. ^ Turner MG (1989). "Landscape ecology: the effect of pattern on process". Annual Review of Ecology and Systematics. 20: 171–197. doi:10.1146/annurev.es.20.110189.001131.
  12. ^ a b c Allaby M (1998). Oxford Dictionary of Ecology. New York, NY: Oxford University Press.
  13. ^ Banaszak J, ed. (2000). Ecology of Forest Islands. Bydgoszcz, Poland: Bydgoszcz University Press. p. 313.
  14. ^ Steiniger S, Hay GJ (September 2009). "Free and open source geographic information tools for landscape ecology" (PDF). Ecological Informatics. 4 (4): 183–95. doi:10.1016/j.ecoinf.2009.07.004.
  15. ^ a b c d Sanderson J, Harris LD, eds. (2000). Landscape Ecology: A Top-Down Approach. Boca Raton, Florida, USA: Lewis Publishers.
  16. ^ a b Naveh Z, Lieberman A (1984). Landscape ecology: theory and application. New York, NY, USA: Springer-Verlag.
  17. ^ a b c Forman RT, Godron M (1986). Landscape Ecology. New York, NY, USA: John Wiley and Sons, Inc.
  18. ^ a b c Ryszkowski L, ed. (2002). Landscape Ecology in Agroecosystems Management. Florida, USA: CRC Press, Boca Raton.
  19. ^ a b c Kirchhoff T, Trepl L, Vicenzotti V (February 2013). "What is landscape ecology? An analysis and evaluation of six different conceptions". Landscape Research. 38 (1): 33–51. doi:10.1080/01426397.2011.640751. S2CID 145421450. All the following quotations and descriptions come from this source.
  20. ^ a b Neef E (1967). Die theoretischen Grundlagen der Landschaftslehre [The theoretical basics of landscape science] (in German). Gotha: Haack.
  21. ^ a b Haase G (1990). "Approaches to, and methods of landscape diagnosis as a basis of landscape planning and landscape management". Ekológia. 9 (1): 31–44.
  22. ^ a b Forman RT, Godron M (November 1981). "Patches and structural components for a landscape ecology". BioScience. 31 (10): 733–40. doi:10.2307/1308780. JSTOR 1308780.
  23. ^ Forman RT, Godron M (1986). Landscape ecology. NY: Wiley.
  24. ^ a b Wiens JA, Milne BT (December 1989). "Scaling of 'landscapes' in landscape ecology, or, landscape ecology from a beetle's perspective". Landscape Ecology. 3 (2): 87–96. doi:10.1007/BF00131172. S2CID 15683804.
  25. ^ a b c Wiens JA (1999). "The science and practice of landscape ecology.". In Klopatek JM, Gardner RH (eds.). Landscape ecological analyses: Issues and applications. NY: Springer. pp. 371–383.
  26. ^ Urban DL, O'Neill RV, Shugart Jr HH (February 1987). "A hierarchical perspective can help scientists understand spatial patterns" (PDF). BioScience. 37 (2): 119–27. doi:10.2307/1310366. JSTOR 1310366.
  27. ^ Leser H (1991). Landschaftsökologie. Ansatz, Modelle, Methodik, Anwendung. Stuttgart: Ulmer.
  28. ^ Naveh Z, Lieberman AS (1984). Landscape ecology. Theory and application. NY: Springer.
  29. ^ Naveh N (2000). "What is holistic landscape ecology? A conceptual introduction". Landscape and Urban Planning. 50 (1–3): 7–26. doi:10.1016/S0169-2046(00)00077-3.
  30. ^ Zonneveld IS (1995). Land ecology: an introduction to landscape ecology as a base for land evaluation, land management and conservation. Amsterdam: SPB.
  31. ^ However, not always under the designation 'landscape ecology', but as part of landscape stewardship, landscape architecture and, first and foremost, environmental or urban and landscape planning.
  32. ^ Hard G (1973). Die Geographie. Eine wissenschaftstheoretische Einführung. Berlin: deGruyter. pp. 92–95.
  33. ^ a b c d e f g Turner MG, Gardner RH, eds. (1991). Quantitative Methods in Landscape Ecology. New York, NY, USA: Springer-Verlag.
  34. ^ Troll C (2007). "The geographic landscape and its investigation.". In Wiens JA, Moss MR, Turner MG, Mladenoff DJ (eds.). Foundation papers in landscape ecology. New York: Columbia University Press. pp. 71–101. First published as: Troll C (1950). "Die geographische Landschaft und ihre Erforschung". Studium Generale. 3 (4–5): 163–181. doi:10.1007/978-3-662-38240-0_20. ISBN 978-3-662-37475-7.
  35. ^ Wiens JA (2005). "Toward a unified landscape ecology". In Wiens JA, Moss MR (eds.). Issues and perspectives in landscape ecology. Cambridge: Cambridge University Press. pp. 365–373.
  36. ^ Malczewski J (1999). GIS and Multicriteria Decision Analysis. New York, NY, USA: John Wiley and Sons, Inc.
  37. ^ Wirth E, Szabó G, Czinkóczky A (2016-06-07). "Measure of Landscape Heterogeneity by Agent-Based Methodology". ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences. III-8: 145–151. Bibcode:2016ISPAnIII8..145W. doi:10.5194/isprs-annals-iii-8-145-2016. ISSN 2194-9042.
  38. ^ a b Walker S, Wilson JB, Steel JB, Rapson GL, Smith B, King WM, Cottam YH (August 2003). "Properties of ecotones: evidence from five ecotones objectively determined from a coastal vegetation gradient". Journal of Vegetation Science. 14 (4): 579–90. doi:10.1111/j.1654-1103.2003.tb02185.x.
  39. ^ a b Attrill MJ, Rundle SD (December 2002). "Ecotone or ecocline: ecological boundaries in estuaries". Estuarine, Coastal and Shelf Science. 55 (6): 929–36. Bibcode:2002ECSS...55..929A. doi:10.1006/ecss.2002.1036.
  40. ^ Green DG, Klomp NI, Rimmington GR, Sadedin S (2006). . Amsterdam: Springer. Archived from the original on 2008-06-19. Retrieved 2008-03-22.
  41. ^ Lyon J, Sagers CL (September 1998). "Structure of herbaceous plant assemblages in a forested riparian landscape". Plant Ecology. 138 (1): 1–6. doi:10.1023/A:1009705912710. S2CID 28628830.
  42. ^ Ochoa-Hueso R, Delgado-Baquerizo M, King PT, Benham M, Arca V, Power SA (February 2019). "Ecosystem type and resource quality are more important than global change drivers in regulating early stages of litter decomposition". Soil Biology and Biochemistry. 129: 144–152. doi:10.1016/j.soilbio.2018.11.009. S2CID 92606851.
  43. ^ Löffler J, Finch OD (November 2005). "Spatio-temporal gradients between high mountain ecosystems of central Norway". Arctic, Antarctic, and Alpine Research. 37 (4): 499–513. doi:10.1657/1523-0430(2005)037[0499:sgbhme]2.0.co;2. S2CID 131326887.
  44. ^ Ellis, Erle C.; Gauthier, Nicolas; Klein Goldewijk, Kees; Bliege Bird, Rebecca; Boivin, Nicole; Díaz, Sandra; Fuller, Dorian Q.; Gill, Jacquelyn L.; Kaplan, Jed O.; Kingston, Naomi; Locke, Harvey; McMichael, Crystal N. H.; Ranco, Darren; Rick, Torben C.; Shaw, M. Rebecca (2021-04-27). "People have shaped most of terrestrial nature for at least 12,000 years". Proceedings of the National Academy of Sciences. 118 (17): e2023483118. doi:10.1073/pnas.2023483118. ISSN 0027-8424. PMC 8092386. PMID 33875599.
  45. ^ Wilson JB, King WM (August 1995). "Human-mediated vegetation switches as processes in landscape ecology". Landscape Ecology. 10 (4): 191–6. doi:10.1007/BF00129253. S2CID 772430.
  46. ^ Dangerfield JM, Pik AJ, Britton D, Holmes A, Gillings M, Oliver IA, Briscoe D, Beattie AJ (June 2003). "Patterns of invertebrate biodiversity across a natural edge". Austral Ecology. 28 (3): 227–36. doi:10.1046/j.1442-9993.2003.01240.x.
  47. ^ National Research Council (2014). Advancing Land Change Modeling: Opportunities and Research Requirements. National Academies Press. pp. Chapter 1. doi:10.17226/18385. ISBN 978-0-309-28833-0.
  48. ^ University of Maryland. . glcf.umd.edu. Archived from the original on 2019-06-09. Retrieved 2018-12-27.
  49. ^ Pittman SJ, ed. (2017). Seascape Ecology. Wiley & Sons.
  50. ^ Boyce SG (1995). Landscape Forestry. New York, NY: John Wiley and Sons, Inc.
  51. ^ Magnuson JJ (February 1991). "Fish and fisheries ecology". Ecological Applications. 1 (1): 13–26. doi:10.2307/1941844. JSTOR 1941844. PMID 27755677.
  52. ^ Sayer J (2009). "Reconciling conservation and development: are landscapes the answer?". Biotropica. 41 (6): 649–652. doi:10.1111/j.1744-7429.2009.00575.x. S2CID 85171847.
  53. ^ Shaker RR (September 2015). "The well-being of nations: an empirical assessment of sustainable urbanization for Europe". International Journal of Sustainable Development & World Ecology. 22 (5): 375–87. doi:10.1080/13504509.2015.1055524. S2CID 154904536.
  54. ^ Manel S, Schwartz MK, Luikart G, Taberlet P (April 2003). "Landscape genetics: combining landscape ecology and population genetics". Trends in Ecology & Evolution. 18 (4): 189–197. doi:10.1016/S0169-5347(03)00008-9.
  55. ^ Storfer A, Murphy MA, Evans JS, Goldberg CS, Robinson S, Spear SF, et al. (March 2007). "Putting the "landscape" in landscape genetics". Heredity. 98 (3): 128–42. doi:10.1038/sj.hdy.6800917. PMID 17080024.
  56. ^ Storfer A, Murphy MA, Spear SF, Holderegger R, Waits LP (September 2010). "Landscape genetics: where are we now?". Molecular Ecology. 19 (17): 3496–514. doi:10.1111/j.1365-294X.2010.04691.x. PMID 20723061. S2CID 16435893.
  57. ^ Balkenhol N, Cushman S, Storfer A, Waits L (2015-11-09). Landscape Genetics: Concepts, Methods, Applications. John Wiley & Sons. ISBN 9781118525296.
  58. ^ Manel S, Holderegger R (October 2013). "Ten years of landscape genetics". Trends in Ecology & Evolution. 28 (10): 614–21. doi:10.1016/j.tree.2013.05.012. PMID 23769416.

External links Edit

  • Computer sumulation "Substrate" launch applet creates fractal iterations that resemble urban streetscape. Algorithm written 2004 by Jared Tarbell
  • International Association for Landscape Ecology
  • Napolisoundscape Urban Space Research

October 15, 2023
landscape, ecology, science, studying, improving, relationships, between, ecological, processes, environment, particular, ecosystems, this, done, within, variety, landscape, scales, development, spatial, patterns, organizational, levels, research, policy, conc. Landscape ecology is the science of studying and improving relationships between ecological processes in the environment and particular ecosystems This is done within a variety of landscape scales development spatial patterns and organizational levels of research and policy 1 2 3 Concisely landscape ecology can be described as the science of landscape diversity as the synergetic result of biodiversity and geodiversity 4 Land cover surrounding Madison Wisconsin Fields are colored yellow and brown and urban surfaces are colored red Impervious surfaces surrounding Madison WisconsinCanopy cover surrounding Madison WisconsinAs a highly interdisciplinary field in systems science landscape ecology integrates biophysical and analytical approaches with humanistic and holistic perspectives across the natural sciences and social sciences Landscapes are spatially heterogeneous geographic areas characterized by diverse interacting patches or ecosystems ranging from relatively natural terrestrial and aquatic systems such as forests grasslands and lakes to human dominated environments including agricultural and urban settings 2 5 6 The most salient characteristics of landscape ecology are its emphasis on the relationship among pattern process and scales and its focus on broad scale ecological and environmental issues These necessitate the coupling between biophysical and socioeconomic sciences Key research topics in landscape ecology include ecological flows in landscape mosaics land use and land cover change scaling relating landscape pattern analysis with ecological processes and landscape conservation and sustainability 7 Landscape ecology also studies the role of human impacts on landscape diversity in the development and spreading of new human pathogens that could trigger epidemics 8 9 Contents 1 Terminology 2 Explanation 3 History 3 1 Evolution of theory 3 2 Development as a discipline 3 3 Definitions conceptions of landscape ecology 4 Relationship to ecological theory 5 Important terms 5 1 Landscape 5 2 Scale and heterogeneity incorporating composition structure and function 5 3 Patch and mosaic 5 4 Boundary and edge 5 5 Ecotones ecoclines and ecotopes 5 6 Disturbance and fragmentation 6 Theory 7 Application 7 1 Research directions 7 2 Land change modeling 7 3 Relationship to other disciplines 8 See also 9 References 10 External linksTerminology EditThe German term Landschaftsokologie thus landscape ecology was coined by German geographer Carl Troll in 1939 10 He developed this terminology and many early concepts of landscape ecology as part of his early work which consisted of applying aerial photograph interpretation to studies of interactions between environment and vegetation Explanation EditHeterogeneity is the measure of how parts of a landscape differ from one another Landscape ecology looks at how this spatial structure affects organism abundance at the landscape level as well as the behavior and functioning of the landscape as a whole This includes studying the influence of pattern or the internal order of a landscape on process or the continuous operation of functions of organisms 11 Landscape ecology also includes geomorphology as applied to the design and architecture of landscapes 12 Geomorphology is the study of how geological formations are responsible for the structure of a landscape History EditEvolution of theory Edit One central landscape ecology theory originated from MacArthur amp Wilson s The Theory of Island Biogeography This work considered the biodiversity on islands as the result of competing forces of colonization from a mainland stock and stochastic extinction The concepts of island biogeography were generalized from physical islands to abstract patches of habitat by Levins metapopulation model which can be applied e g to forest islands in the agricultural landscape 13 This generalization spurred the growth of landscape ecology by providing conservation biologists a new tool to assess how habitat fragmentation affects population viability Recent growth of landscape ecology owes much to the development of geographic information systems GIS 14 and the availability of large extent habitat data e g remotely sensed datasets Development as a discipline Edit Landscape ecology developed in Europe from historical planning on human dominated landscapes Concepts from general ecology theory were integrated in North America when While general ecology theory and its sub disciplines focused on the study of more homogenous discrete community units organized in a hierarchical structure typically as ecosystems populations species and communities landscape ecology built upon heterogeneity in space and time It frequently included human caused landscape changes in theory and application of concepts 15 By 1980 landscape ecology was a discrete established discipline It was marked by the organization of the International Association for Landscape Ecology IALE in 1982 Landmark book publications defined the scope and goals of the discipline including Naveh and Lieberman 16 and Forman and Godron 17 18 Forman 6 wrote that although study of the ecology of spatial configuration at the human scale was barely a decade old there was strong potential for theory development and application of the conceptual framework Today theory and application of landscape ecology continues to develop through a need for innovative applications in a changing landscape and environment Landscape ecology relies on advanced technologies such as remote sensing GIS and models There has been associated development of powerful quantitative methods to examine the interactions of patterns and processes 5 An example would be determining the amount of carbon present in the soil based on landform over a landscape derived from GIS maps vegetation types and rainfall data for a region Remote sensing work has been used to extend landscape ecology to the field of predictive vegetation mapping for instance by Janet Franklin Definitions conceptions of landscape ecology Edit Nowadays at least six different conceptions of landscape ecology can be identified one group tending toward the more disciplinary concept of ecology subdiscipline of biology in conceptions 2 3 and 4 and another group characterized by the interdisciplinary study of relations between human societies and their environment inclined toward the integrated view of geography in conceptions 1 5 and 6 19 Interdisciplinary analysis of subjectively defined landscape units e g Neef School 20 21 Landscapes are defined in terms of uniformity in land use Landscape ecology explores the landscape s natural potential in terms of functional utility for human societies To analyse this potential it is necessary to draw on several natural sciences Topological ecology at the landscape scale 22 23 Landscape is defined as a heterogeneous land area composed of a cluster of interacting ecosystems woods meadows marshes villages etc that is repeated in similar form throughout It is explicitly stated that landscapes are areas at a kilometres wide human scale of perception modification etc Landscape ecology describes and explains the landscapes characteristic patterns of ecosystems and investigates the flux of energy mineral nutrients and species among their component ecosystems providing important knowledge for addressing land use issues Organism centered multi scale topological ecology e g John A Wiens 24 25 Explicitly rejecting views expounded by Troll Zonneveld Naveh Forman amp Godron etc landscape and landscape ecology are defined independently of human perceptions interests and modifications of nature Landscape is defined regardless of scale as the template on which spatial patterns influence ecological processes Not humans but rather the respective species being studied is the point of reference for what constitutes a landscape Topological ecology at the landscape level of biological organisation e g Urban et al 26 On the basis of ecological hierarchy theory it is presupposed that nature is working at multiple scales and has different levels of organisation which are part of a rate structured nested hierarchy Specifically it is claimed that above the ecosystem level a landscape level exists which is generated and identifiable by high interaction intensity between ecosystems a specific interaction frequency and typically a corresponding spatial scale Landscape ecology is defined as ecology that focuses on the influence exerted by spatial and temporal patterns on the organisation of and interaction among functionally integrated multispecies ecosystems Analysis of social ecological systems using the natural and social sciences and humanities e g Leser 27 Naveh 28 29 Zonneveld 30 Landscape ecology is defined as an interdisciplinary super science that explores the relationship between human societies and their specific environment making use of not only various natural sciences but also social sciences and humanities This conception is grounded in the assumption that social systems are linked to their specific ambient ecological system in such a way that both systems together form a co evolutionary self organising unity called landscape Societies cultural social and economic dimensions are regarded as an integral part of the global ecological hierarchy and landscapes are claimed to be the manifest systems of the total human ecosystem Naveh which encompasses both the physical geospheric and mental noospheric spheres Ecology guided by cultural meanings of lifeworldly landscapes frequently pursued in practice 31 but not defined but see e g Hard 32 Trepl 19 Landscape ecology is defined as ecology that is guided by an external aim namely to maintain and develop lifeworldly landscapes It provides the ecological knowledge necessary to achieve these goals It investigates how to sustain and develop those populations and ecosystems which i are the material vehicles of lifeworldly aesthetic and symbolic landscapes and at the same time ii meet societies functional requirements including provisioning regulating and supporting ecosystem services Thus landscape ecology is concerned mainly with the populations and ecosystems which have resulted from traditional regionally specific forms of land use Relationship to ecological theory EditSome research programmes of landscape ecology theory namely those standing in the European tradition may be slightly outside of the classical and preferred domain of scientific disciplines because of the large heterogeneous areas of study However general ecology theory is central to landscape ecology theory in many aspects Landscape ecology consists of four main principles the development and dynamics of spatial heterogeneity interactions and exchanges across heterogeneous landscapes influences of spatial heterogeneity on biotic and abiotic processes and the management of spatial heterogeneity The main difference from traditional ecological studies which frequently assume that systems are spatially homogenous is the consideration of spatial patterns 33 Important terms EditLandscape ecology not only created new terms but also incorporated existing ecological terms in new ways Many of the terms used in landscape ecology are as interconnected and interrelated as the discipline itself Landscape Edit Main article Landscape Certainly landscape is a central concept in landscape ecology It is however defined in quite different ways For example 19 Carl Troll conceives of landscape not as a mental construct but as an objectively given organic entity a harmonic individuum of space 34 Ernst Neef 20 21 defines landscapes as sections within the uninterrupted earth wide interconnection of geofactors which are defined as such on the basis of their uniformity in terms of a specific land use and are thus defined in an anthropocentric and relativistic way According to Richard Forman and Michel Godron 22 a landscape is a heterogeneous land area composed of a cluster of interacting ecosystems that is repeated in similar form throughout whereby they list woods meadows marshes and villages as examples of a landscape s ecosystems and state that a landscape is an area at least a few kilometres wide John A Wiens 24 25 opposes the traditional view expounded by Carl Troll Isaak S Zonneveld Zev Naveh Richard T T Forman Michel Godron and others that landscapes are arenas in which humans interact with their environments on a kilometre wide scale instead he defines landscape regardless of scale as the template on which spatial patterns influence ecological processes 25 35 Some define landscape as an area containing two or more ecosystems in close proximity 15 Scale and heterogeneity incorporating composition structure and function Edit Main articles Scale geography and Spatial heterogeneity A main concept in landscape ecology is scale Scale represents the real world as translated onto a map relating distance on a map image and the corresponding distance on earth 36 Scale is also the spatial or temporal measure of an object or a process 33 or amount of spatial resolution 6 Components of scale include composition structure and function which are all important ecological concepts Applied to landscape ecology composition refers to the number of patch types see below represented on a landscape and their relative abundance For example the amount of forest or wetland the length of forest edge or the density of roads can be aspects of landscape composition Structure is determined by the composition the configuration and the proportion of different patches across the landscape while function refers to how each element in the landscape interacts based on its life cycle events 33 Pattern is the term for the contents and internal order of a heterogeneous area of land 17 A landscape with structure and pattern implies that it has spatial heterogeneity or the uneven distribution of objects across the landscape 6 Heterogeneity is a key element of landscape ecology that separates this discipline from other branches of ecology Landscape heterogeneity is able to quantify with agent based methods as well 37 Patch and mosaic Edit See also Patch dynamics Patch a term fundamental to landscape ecology is defined as a relatively homogeneous area that differs from its surroundings 6 Patches are the basic unit of the landscape that change and fluctuate a process called patch dynamics Patches have a definite shape and spatial configuration and can be described compositionally by internal variables such as number of trees number of tree species height of trees or other similar measurements 6 Matrix is the background ecological system of a landscape with a high degree of connectivity Connectivity is the measure of how connected or spatially continuous a corridor network or matrix is 6 For example a forested landscape matrix with fewer gaps in forest cover open patches will have higher connectivity Corridors have important functions as strips of a particular type of landscape differing from adjacent land on both sides 6 A network is an interconnected system of corridors while mosaic describes the pattern of patches corridors and matrix that form a landscape in its entirety 6 Boundary and edge Edit Main article Edge effect Landscape patches have a boundary between them which can be defined or fuzzy 15 The zone composed of the edges of adjacent ecosystems is the boundary 6 Edge means the portion of an ecosystem near its perimeter where influences of the adjacent patches can cause an environmental difference between the interior of the patch and its edge This edge effect includes a distinctive species composition or abundance 6 For example when a landscape is a mosaic of perceptibly different types such as a forest adjacent to a grassland the edge is the location where the two types adjoin In a continuous landscape such as a forest giving way to open woodland the exact edge location is fuzzy and is sometimes determined by a local gradient exceeding a threshold such as the point where the tree cover falls below thirty five percent 33 Ecotones ecoclines and ecotopes Edit Main articles Ecotone Ecocline and Ecotype A type of boundary is the ecotone or the transitional zone between two communities 12 Ecotones can arise naturally such as a lakeshore or can be human created such as a cleared agricultural field from a forest 12 The ecotonal community retains characteristics of each bordering community and often contains species not found in the adjacent communities Classic examples of ecotones include fencerows forest to marshlands transitions forest to grassland transitions or land water interfaces such as riparian zones in forests Characteristics of ecotones include vegetational sharpness physiognomic change occurrence of a spatial community mosaic many exotic species ecotonal species spatial mass effect and species richness higher or lower than either side of the ecotone 38 An ecocline is another type of landscape boundary but it is a gradual and continuous change in environmental conditions of an ecosystem or community Ecoclines help explain the distribution and diversity of organisms within a landscape because certain organisms survive better under certain conditions which change along the ecocline They contain heterogeneous communities which are considered more environmentally stable than those of ecotones 39 An ecotope is a spatial term representing the smallest ecologically distinct unit in mapping and classification of landscapes 6 Relatively homogeneous they are spatially explicit landscape units used to stratify landscapes into ecologically distinct features They are useful for the measurement and mapping of landscape structure function and change over time and to examine the effects of disturbance and fragmentation Disturbance and fragmentation Edit Main articles Disturbance ecology and Habitat fragmentation Disturbance is an event that significantly alters the pattern of variation in the structure or function of a system Fragmentation is the breaking up of a habitat ecosystem or land use type into smaller parcels 6 Disturbance is generally considered a natural process Fragmentation causes land transformation an important process in landscapes as development occurs An important consequence of repeated random clearing whether by natural disturbance or human activity is that contiguous cover can break down into isolated patches This happens when the area cleared exceeds a critical level which means that landscapes exhibit two phases connected and disconnected 40 Theory EditLandscape ecology theory stresses the role of human impacts on landscape structures and functions It also proposes ways for restoring degraded landscapes 16 Landscape ecology explicitly includes humans as entities that cause functional changes on the landscape 15 Landscape ecology theory includes the landscape stability principle which emphasizes the importance of landscape structural heterogeneity in developing resistance to disturbances recovery from disturbances and promoting total system stability 17 This principle is a major contribution to general ecological theories which highlight the importance of relationships among the various components of the landscape Integrity of landscape components helps maintain resistance to external threats including development and land transformation by human activity 5 Analysis of land use change has included a strongly geographical approach which has led to the acceptance of the idea of multifunctional properties of landscapes 18 There are still calls for a more unified theory of landscape ecology due to differences in professional opinion among ecologists and its interdisciplinary approach Bastian 2001 An important related theory is hierarchy theory which refers to how systems of discrete functional elements operate when linked at two or more scales For example a forested landscape might be hierarchically composed of drainage basins which in turn are composed of local ecosystems which are in turn composed of individual trees and gaps 6 Recent theoretical developments in landscape ecology have emphasized the relationship between pattern and process as well as the effect that changes in spatial scale has on the potential to extrapolate information across scales 33 Several studies suggest that the landscape has critical thresholds at which ecological processes will show dramatic changes such as the complete transformation of a landscape by an invasive species due to small changes in temperature characteristics which favor the invasive s habitat requirements 33 Application EditResearch directions Edit Developments in landscape ecology illustrate the important relationships between spatial patterns and ecological processes These developments incorporate quantitative methods that link spatial patterns and ecological processes at broad spatial and temporal scales This linkage of time space and environmental change can assist managers in applying plans to solve environmental problems 5 The increased attention in recent years on spatial dynamics has highlighted the need for new quantitative methods that can analyze patterns determine the importance of spatially explicit processes and develop reliable models 33 Multivariate analysis techniques are frequently used to examine landscape level vegetation patterns Studies use statistical techniques such as cluster analysis canonical correspondence analysis CCA or detrended correspondence analysis DCA for classifying vegetation Gradient analysis is another way to determine the vegetation structure across a landscape or to help delineate critical wetland habitat for conservation or mitigation purposes Choesin and Boerner 2002 41 Climate change is another major component in structuring current research in landscape ecology 42 Ecotones as a basic unit in landscape studies may have significance for management under climate change scenarios since change effects are likely to be seen at ecotones first because of the unstable nature of a fringe habitat 38 Research in northern regions has examined landscape ecological processes such as the accumulation of snow melting freeze thaw action percolation soil moisture variation and temperature regimes through long term measurements in Norway 43 The study analyzes gradients across space and time between ecosystems of the central high mountains to determine relationships between distribution patterns of animals in their environment Looking at where animals live and how vegetation shifts over time may provide insight into changes in snow and ice over long periods of time across the landscape as a whole Other landscape scale studies maintain that human impact is likely the main determinant of landscape pattern over much of the globe 44 45 Landscapes may become substitutes for biodiversity measures because plant and animal composition differs between samples taken from sites within different landscape categories Taxa or different species can leak from one habitat into another which has implications for landscape ecology As human land use practices expand and continue to increase the proportion of edges in landscapes the effects of this leakage across edges on assemblage integrity may become more significant in conservation This is because taxa may be conserved across landscape levels if not at local levels 46 Land change modeling Edit Land change modeling is an application of landscape ecology designed to predict future changes in land use Land change models are used in urban planning geography GIS and other disciplines to gain a clear understanding of the course of a landscape 47 In recent years much of the Earth s land cover has changed rapidly whether from deforestation or the expansion of urban areas 48 Relationship to other disciplines Edit Landscape ecology has been incorporated into a variety of ecological subdisciplines For example it is closely linked to land change science the interdisciplinary of land use and land cover change and their effects on surrounding ecology Another recent development has been the more explicit consideration of spatial concepts and principles applied to the study of lakes streams and wetlands in the field of landscape limnology Seascape ecology is a marine and coastal application of landscape ecology 49 In addition landscape ecology has important links to application oriented disciplines such as agriculture and forestry In agriculture landscape ecology has introduced new options for the management of environmental threats brought about by the intensification of agricultural practices Agriculture has always been a strong human impact on ecosystems 18 In forestry from structuring stands for fuelwood and timber to ordering stands across landscapes to enhance aesthetics consumer needs have affected conservation and use of forested landscapes Landscape forestry provides methods concepts and analytic procedures for landscape forestry 50 Landscape ecology has been cited as a contributor to the development of fisheries biology as a distinct biological science discipline 51 and is frequently incorporated in study design for wetland delineation in hydrology 39 It has helped shape integrated landscape management 52 Lastly landscape ecology has been very influential for progressing sustainability science and sustainable development planning For example a recent study assessed sustainable urbanization across Europe using evaluation indices country landscapes and landscape ecology tools and methods 53 Landscape ecology has also been combined with population genetics to form the field of landscape genetics which addresses how landscape features influence the population structure and gene flow of plant and animal populations across space and time 54 and on how the quality of intervening landscape known as matrix influences spatial variation 55 After the term was coined in 2003 the field of landscape genetics had expanded to over 655 studies by 2010 56 and continues to grow today As genetic data has become more readily accessible it is increasingly being used by ecologists to answer novel evolutionary and ecological questions 57 many with regard to how landscapes effect evolutionary processes especially in human modified landscapes which are experiencing biodiversity loss 58 See also Edit nbsp Environment portal nbsp Ecology portal nbsp Earth sciences portal nbsp Biology portalAgroecology Biogeography Conservation communities Concepts and Techniques in Modern Geography Ecology Ecotope European Landscape Convention Historical ecology Integrated landscape management Land change modeling Landscape epidemiology Landscape limnology Landscape planning Landscape connectivity Patch dynamics Total human ecosystem Sustainable landscaping Landscape architecture Land development Tobler s first law of geography Tobler s second law of geographyReferences Edit Wu J January 2006 Landscape ecology cross disciplinarity and sustainability science Landscape Ecology 21 1 1 4 doi 10 1007 s10980 006 7195 2 S2CID 27192835 a b Wu J Hobbs R eds 2007 Key Topics in Landscape Ecology Cambridge Cambridge University Press Wu J 2008 Landscape ecology In Jorgensen SE ed Encyclopedia of Ecology Oxford Elsevier Leser H Nagel P 2001 Landscape diversity a holistic approach Biodiversity Springer pp 129 143 doi 10 1007 978 3 662 06071 1 9 ISBN 978 3 642 08370 9 a b c d Turner MG Gardner RH O Neill RV 2001 Landscape Ecology in Theory and Practice New York NY USA Springer Verlag a b c d e f g h i j k l m n Forman RT 1995 Land Mosaics The Ecology of Landscapes and Regions Cambridge UK Cambridge University Press Wu amp Hobbs 2002 Bloomfield LS McIntosh TL Lambin EF 2020 04 01 Habitat fragmentation livelihood behaviors and contact between people and nonhuman primates in Africa Landscape Ecology 35 4 985 1000 doi 10 1007 s10980 020 00995 w ISSN 1572 9761 S2CID 214731443 Bausch DG Schwarz L 2014 07 31 Outbreak of ebola virus disease in Guinea where ecology meets economy PLOS Neglected Tropical Diseases 8 7 e3056 doi 10 1371 journal pntd 0003056 PMC 4117598 PMID 25079231 Troll C 1939 Luftbildplan und okologische Bodenforschung Aerial photography and ecological studies of the earth Zeitschrift der Gesellschaft fur Erdkunde in German Berlin 241 298 Turner MG 1989 Landscape ecology the effect of pattern on process Annual Review of Ecology and Systematics 20 171 197 doi 10 1146 annurev es 20 110189 001131 a b c Allaby M 1998 Oxford Dictionary of Ecology New York NY Oxford University Press Banaszak J ed 2000 Ecology of Forest Islands Bydgoszcz Poland Bydgoszcz University Press p 313 Steiniger S Hay GJ September 2009 Free and open source geographic information tools for landscape ecology PDF Ecological Informatics 4 4 183 95 doi 10 1016 j ecoinf 2009 07 004 a b c d Sanderson J Harris LD eds 2000 Landscape Ecology A Top Down Approach Boca Raton Florida USA Lewis Publishers a b Naveh Z Lieberman A 1984 Landscape ecology theory and application New York NY USA Springer Verlag a b c Forman RT Godron M 1986 Landscape Ecology New York NY USA John Wiley and Sons Inc a b c Ryszkowski L ed 2002 Landscape Ecology in Agroecosystems Management Florida USA CRC Press Boca Raton a b c Kirchhoff T Trepl L Vicenzotti V February 2013 What is landscape ecology An analysis and evaluation of six different conceptions Landscape Research 38 1 33 51 doi 10 1080 01426397 2011 640751 S2CID 145421450 All the following quotations and descriptions come from this source a b Neef E 1967 Die theoretischen Grundlagen der Landschaftslehre The theoretical basics of landscape science in German Gotha Haack a b Haase G 1990 Approaches to and methods of landscape diagnosis as a basis of landscape planning and landscape management Ekologia 9 1 31 44 a b Forman RT Godron M November 1981 Patches and structural components for a landscape ecology BioScience 31 10 733 40 doi 10 2307 1308780 JSTOR 1308780 Forman RT Godron M 1986 Landscape ecology NY Wiley a b Wiens JA Milne BT December 1989 Scaling of landscapes in landscape ecology or landscape ecology from a beetle s perspective Landscape Ecology 3 2 87 96 doi 10 1007 BF00131172 S2CID 15683804 a b c Wiens JA 1999 The science and practice of landscape ecology In Klopatek JM Gardner RH eds Landscape ecological analyses Issues and applications NY Springer pp 371 383 Urban DL O Neill RV Shugart Jr HH February 1987 A hierarchical perspective can help scientists understand spatial patterns PDF BioScience 37 2 119 27 doi 10 2307 1310366 JSTOR 1310366 Leser H 1991 Landschaftsokologie Ansatz Modelle Methodik Anwendung Stuttgart Ulmer Naveh Z Lieberman AS 1984 Landscape ecology Theory and application NY Springer Naveh N 2000 What is holistic landscape ecology A conceptual introduction Landscape and Urban Planning 50 1 3 7 26 doi 10 1016 S0169 2046 00 00077 3 Zonneveld IS 1995 Land ecology an introduction to landscape ecology as a base for land evaluation land management and conservation Amsterdam SPB However not always under the designation landscape ecology but as part of landscape stewardship landscape architecture and first and foremost environmental or urban and landscape planning Hard G 1973 Die Geographie Eine wissenschaftstheoretische Einfuhrung Berlin deGruyter pp 92 95 a b c d e f g Turner MG Gardner RH eds 1991 Quantitative Methods in Landscape Ecology New York NY USA Springer Verlag Troll C 2007 The geographic landscape and its investigation In Wiens JA Moss MR Turner MG Mladenoff DJ eds Foundation papers in landscape ecology New York Columbia University Press pp 71 101 First published as Troll C 1950 Die geographische Landschaft und ihre Erforschung Studium Generale 3 4 5 163 181 doi 10 1007 978 3 662 38240 0 20 ISBN 978 3 662 37475 7 Wiens JA 2005 Toward a unified landscape ecology In Wiens JA Moss MR eds Issues and perspectives in landscape ecology Cambridge Cambridge University Press pp 365 373 Malczewski J 1999 GIS and Multicriteria Decision Analysis New York NY USA John Wiley and Sons Inc Wirth E Szabo G Czinkoczky A 2016 06 07 Measure of Landscape Heterogeneity by Agent Based Methodology ISPRS Annals of the Photogrammetry Remote Sensing and Spatial Information Sciences III 8 145 151 Bibcode 2016ISPAnIII8 145W doi 10 5194 isprs annals iii 8 145 2016 ISSN 2194 9042 a b Walker S Wilson JB Steel JB Rapson GL Smith B King WM Cottam YH August 2003 Properties of ecotones evidence from five ecotones objectively determined from a coastal vegetation gradient Journal of Vegetation Science 14 4 579 90 doi 10 1111 j 1654 1103 2003 tb02185 x a b Attrill MJ Rundle SD December 2002 Ecotone or ecocline ecological boundaries in estuaries Estuarine Coastal and Shelf Science 55 6 929 36 Bibcode 2002ECSS 55 929A doi 10 1006 ecss 2002 1036 Green DG Klomp NI Rimmington GR Sadedin S 2006 Complexity in Landscape Ecology Amsterdam Springer Archived from the original on 2008 06 19 Retrieved 2008 03 22 Lyon J Sagers CL September 1998 Structure of herbaceous plant assemblages in a forested riparian landscape Plant Ecology 138 1 1 6 doi 10 1023 A 1009705912710 S2CID 28628830 Ochoa Hueso R Delgado Baquerizo M King PT Benham M Arca V Power SA February 2019 Ecosystem type and resource quality are more important than global change drivers in regulating early stages of litter decomposition Soil Biology and Biochemistry 129 144 152 doi 10 1016 j soilbio 2018 11 009 S2CID 92606851 Loffler J Finch OD November 2005 Spatio temporal gradients between high mountain ecosystems of central Norway Arctic Antarctic and Alpine Research 37 4 499 513 doi 10 1657 1523 0430 2005 037 0499 sgbhme 2 0 co 2 S2CID 131326887 Ellis Erle C Gauthier Nicolas Klein Goldewijk Kees Bliege Bird Rebecca Boivin Nicole Diaz Sandra Fuller Dorian Q Gill Jacquelyn L Kaplan Jed O Kingston Naomi Locke Harvey McMichael Crystal N H Ranco Darren Rick Torben C Shaw M Rebecca 2021 04 27 People have shaped most of terrestrial nature for at least 12 000 years Proceedings of the National Academy of Sciences 118 17 e2023483118 doi 10 1073 pnas 2023483118 ISSN 0027 8424 PMC 8092386 PMID 33875599 Wilson JB King WM August 1995 Human mediated vegetation switches as processes in landscape ecology Landscape Ecology 10 4 191 6 doi 10 1007 BF00129253 S2CID 772430 Dangerfield JM Pik AJ Britton D Holmes A Gillings M Oliver IA Briscoe D Beattie AJ June 2003 Patterns of invertebrate biodiversity across a natural edge Austral Ecology 28 3 227 36 doi 10 1046 j 1442 9993 2003 01240 x National Research Council 2014 Advancing Land Change Modeling Opportunities and Research Requirements National Academies Press pp Chapter 1 doi 10 17226 18385 ISBN 978 0 309 28833 0 University of Maryland GLCF Global Land Cover Change glcf umd edu Archived from the original on 2019 06 09 Retrieved 2018 12 27 Pittman SJ ed 2017 Seascape Ecology Wiley amp Sons Boyce SG 1995 Landscape Forestry New York NY John Wiley and Sons Inc Magnuson JJ February 1991 Fish and fisheries ecology Ecological Applications 1 1 13 26 doi 10 2307 1941844 JSTOR 1941844 PMID 27755677 Sayer J 2009 Reconciling conservation and development are landscapes the answer Biotropica 41 6 649 652 doi 10 1111 j 1744 7429 2009 00575 x S2CID 85171847 Shaker RR September 2015 The well being of nations an empirical assessment of sustainable urbanization for Europe International Journal of Sustainable Development amp World Ecology 22 5 375 87 doi 10 1080 13504509 2015 1055524 S2CID 154904536 Manel S Schwartz MK Luikart G Taberlet P April 2003 Landscape genetics combining landscape ecology and population genetics Trends in Ecology amp Evolution 18 4 189 197 doi 10 1016 S0169 5347 03 00008 9 Storfer A Murphy MA Evans JS Goldberg CS Robinson S Spear SF et al March 2007 Putting the landscape in landscape genetics Heredity 98 3 128 42 doi 10 1038 sj hdy 6800917 PMID 17080024 Storfer A Murphy MA Spear SF Holderegger R Waits LP September 2010 Landscape genetics where are we now Molecular Ecology 19 17 3496 514 doi 10 1111 j 1365 294X 2010 04691 x PMID 20723061 S2CID 16435893 Balkenhol N Cushman S Storfer A Waits L 2015 11 09 Landscape Genetics Concepts Methods Applications John Wiley amp Sons ISBN 9781118525296 Manel S Holderegger R October 2013 Ten years of landscape genetics Trends in Ecology amp Evolution 28 10 614 21 doi 10 1016 j tree 2013 05 012 PMID 23769416 External links EditComputer sumulation Substrate launch applet creates fractal iterations that resemble urban streetscape Algorithm written 2004 by Jared Tarbell International Association for Landscape Ecology Napolisoundscape Urban Space Research Retrieved from https en wikipedia org w index php title Landscape ecology amp oldid 1164908013, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.