Thematische Bibliographien / Eco-restoration

Inhaltsverzeichnis

  1. Zeitschriftenartikel
  2. Dissertationen
  3. Bücher
  4. Buchteile
  5. Konferenzberichte
  6. Berichte der Organisationen

Auswahl der wissenschaftlichen Literatur zum Thema „Eco-restoration“

Autor: Grafiati
Veröffentlicht am 18. Mai 2024

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Zeitschriftenartikel zum Thema "Eco-restoration"

1

Chen, Xin Fang, Xi Chen, Win Min Ju, Li Liang Ren, Dan Rong Zhang, Zhi Cai Zhang, Bao Hua Guan, Jian Wei Zheng und Cheng Yuan Liang. „Comparison of the Temporal Heterogeneity of Soil Moisture of Different Ecosystems at Red Soil Hillside Fields“. Advanced Materials Research 455-456 (Januar 2012): 1361–65. http://dx.doi.org/10.4028/www.scientific.net/amr.455-456.1361.

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This paper investigates the differences in the temporal heterogeneity of soil moisture between natural restoration ecosystem without disturbance (named as eco-1), restoration ecosystem with disturbance (named as eco-2) and shrubs ecosystem (named as eco-3) in red soil hillside fields. The probe soil moisture measured at 20 and 40 cm below the soil surface Hydrosense Portable Time Domain Reflectometry (TDR) system. The results showed that: (1) Daily measurements during a growing season showed significantly temporal interactions between vegetation and water. Soils under eco-2 (restoration ecosystem with disturbance) and eco-3 (shrubs ecosystem) were wettest at the start of the growing season but dries at the end; (2) The coefficient of variation of soil moisture content over time during the growing season was significantly higher in eco-2 than in eco-1, and at two depths beneath the soil surface (20 and 40 cm).
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Peng, Lu, Qiming Mao, Lin-Ying Cao, Hailong Sun, Xiande Xie und Shuang Luo. „Insight into the Adaptability of Dominant Plant Indigofera amblyantha Craib for Ecological Restoration of Rock Slopes in Stone Coal Mine“. Adsorption Science & Technology 2021 (01.11.2021): 1–10. http://dx.doi.org/10.1155/2021/3827991.

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The eco-restoration was a very effective measure to solve the problem of environmental pollution caused by the exposed mine surface in the stone coal mine site. In this study, the dominant plant, Indigofera amblyantha Craib, was well adapted to the eco-restoration in stone coal mining area. The changes of nutrient elements, pH, heavy metals in substrate material, the biological concentration/transfer factor, and the distribution and diversity of bacteria and fungi in rhizosphere soil were investigated. The results show that the plant communities help slow down the loss of nutrient elements and the increase of the concentrations of heavy metals in the eco-restoration process. The Indigofera amblyantha Craib had the advantaged ability to enrich and transfer Cd, Cu, Mn, and its diversity index of microbial communities in rhizosphere soils was higher than that of other quadrats. These excellent properties found in this work help reveal the insight into the adaptability of Indigofera amblyantha Craib in the eco-restoration of stone coal mines. It is valuable to evaluate Indigofera amblyantha Craib for eco-restoration engineering of stone coal mine and extend the application in heavy metal contaminated sites.
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He, Yu, und Lili Huo. „Research of Landscape Design in Mine’s Eco-Environment Restoration“. Applied Mechanics and Materials 174-177 (Mai 2012): 2721–24. http://dx.doi.org/10.4028/www.scientific.net/amm.174-177.2721.

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In china, many mines lie around cities, lakes or scenic spots, which have important effects on regional landscape. Recently, most research of mine’s ecological restoration focuses on geological hazards prevention, soil improvement, vegetation restoration, heavy metal pollution etc. With the increasement of environment protection consciousness, restoration and construction of mine eco-environment has been an important part of eco-environment management. Therefore, it is significant to research mine’s ecological restoration from the aspect of landscape. This paper will take Daye Iron mine ecological restoration as an example to discuss landscape design in mine’s ecological environment restoration from the aspects of mine landscape elements, methods of landscape restoration, in order to provide scientific suggestion for mining ecological restoration.
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Zhu, Xiang Hong, und Zeng Bin Jiang. „Restoration of Eco-River in Hefeng Village“. Applied Mechanics and Materials 522-524 (Februar 2014): 963–66. http://dx.doi.org/10.4028/www.scientific.net/amm.522-524.963.

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Restoration of eco-river took advantage of double river canal, tegular dam, and wetland system to purify wastewater from Hefeng village. The river flood control standard could meet 50-year flood with double river canals. And tegular dams were piled up of eco-bags which could come into buds and plants. They divided the river into 5 wetlands. In the wetland, bacterial was oxidized and decomposed, and algae carried out photosynthesis. Diversified aquatic vegetation and animal were introduced. They formed intricate food chains to degradate organisms and assimilate inorganic substance. The eco-river purified water, and made friendly habitat for all the creatures.
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Mohamed, Noralizawati, Noriah Othman, Helmi Hamzah, Mohammad Hafiz Zainal und Nurhayati Abdul Malek. „A Systematic Review of Botanical Gardens Towards Eco Restoration and Connectedness to Nature for Psychological Restoration“. IOP Conference Series: Earth and Environmental Science 1067, Nr. 1 (01.10.2022): 012003. http://dx.doi.org/10.1088/1755-1315/1067/1/012003.

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Abstract A botanical garden can potentially mitigate psychological and mental health problems accompanying psychological restoration via a range of eco-restoration benefits and connectedness to natural factors. However, the extent to how the botanical garden provides ecorestoration related to connectedness remained unclear. This study furnishes a review of 25 botanical garden articles, investigating: (i) research locations, (ii) eco-restoration benefits, (iii) connectedness to natural factors, and (iv) psychological restoration effects. Researchers published 25 journals from diverse disciplines, including agriculture & biology science, environmental science, multidisciplinary, psychology, and social sciences. Results showed that 42% of the studies were administered in Europe, 18% in Malaysia and 40% in other countries. Demonstrated eco-restoration benefits include: preserving wildlife habitat and increasing vegetation cover, protecting biodiversity loss, and providing more functional space for people benefits; demonstrated connectedness to natural factors include: engagement with nature, natural qualities, and human sense. Demonstrated psychological restoration effects include: promoting individual well-being and restoration of attention capacities. Further research is pertinent to inform more on the actual extent of specific psychological restoration effects, including mental health issues associated with a botanical garden.
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Singh, Preeti, und Seema K. „Eco-restoration of coal mine overburden dump“. Environment Conservation Journal 18, Nr. 1&2 (15.06.2017): 117–19. http://dx.doi.org/10.36953/ecj.2017.181216.

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Wu, Yong. „“Restoration” of Eco-Waterfront under Chinese Background“. Advanced Materials Research 518-523 (Mai 2012): 5968–71. http://dx.doi.org/10.4028/www.scientific.net/amr.518-523.5968.

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With some examples given, the paper points out six main misunderstandings that exist in eco-waterfront practice under Chinese background. It brings forward restoration of ecology as the principle to guide the waterfront constructions, and also offers some concrete methods through several designs. Here “restoration” has two meanings: one is that original meaning or intention should be given back to the word “ecology”; the other is instead of human’s inventing something ecological, local ecology characteristics should be given back to urban waterfront.
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Bharathidasan, S., T. K. Krushnadesikan, K. Arun und A. AbdulRahman. „Eco Restoration of River Coovum in India“. IOSR Journal of Mechanical and Civil Engineering 11, Nr. 4 (2014): 45–49. http://dx.doi.org/10.9790/1684-11434549.

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Kang, Hyeongsik. „Eco-river Restoration and River Management in Response to Climate Change“. Journal of the Korean Society of Civil Engineers 34, Nr. 1 (2014): 155. http://dx.doi.org/10.12652/ksce.2014.34.1.0155.

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Rochford, Francine. „Designing the environment – the paradox of eco-restoration“. Griffith Law Review 26, Nr. 2 (03.04.2017): 202–20. http://dx.doi.org/10.1080/10383441.2017.1366256.

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Dissertationen zum Thema "Eco-restoration"

1

Chhetri, Harka Bahadur. „An Ecological study of the vegetation of Teesta sub-catchment area (South Sikkim) with special emphasis on the utilization of the local species for Eco-restoration and Eco-development of the region“. Thesis, University of North Bengal, 1991. http://hdl.handle.net/123456789/1562.

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Grabowski, Zbigniew Jakub. „Removing Dams, Constructing Science: Watershed Restoration Through a Socio-Eco-Technical Systems Lens“. PDXScholar, 2018. https://pdxscholar.library.pdx.edu/open_access_etds/4515.

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Ecological conservation and restoration in the anthropocene must struggle with overlapping drivers of biodiversity and cultural loss; ruptures of the ecological environment mirror ruptures of human relationships with nature. And yet technology cannot remove humans from nature; technological and infrastructural reconfigurations of nature create new vulnerabilities and risks for humans and ecosystems alike. How can conservation and restoration science productively grapple with complex infrastructure systems and decision-making processes as biophysical and social drivers of ecosystem change? Using dam removals in the USA and in the Mid Columbia River region of the Pacific Northwest, this dissertation develops a conceptual framework for Social, Environmental, and Technological Systems (SETS), and applies it at three spatial and temporal scales to the practice of dam removal as a river restoration strategy. Drawing upon existing data sets, as well as biophysical, document, survey, and interview data this dissertation addresses how dam removals have functioned in the context of the social histories of river restoration programs, examines how these restoration programs must continue to renegotiate the human relationships with nature through the infrastructure systems that enable certain forms of existence while precluding others. Of particular interest is how restoration programs have increasingly functioned to deliver novel infrastructure solutions, while ignoring longer-term changes in ecological structure and function due to infrastructure development; in other words, the infrastructural work of restored ecosystems, and the infrastructural blind spots of restoration programs. How restoration planning considers, or does not consider, infrastructural blind spots, is indicative of not only the biophysical drivers of threatened and endangered species loss, but also the political dynamics of decision making at large, and the power-knowledge relationships constituting legitimate and relevant knowledge in the decision making space. In the Pacific Northwest, there appears to be a tipping point of social convention in centering treaty rights and obligations vis-a-vis ongoing processes of colonization and institutionalized scientific expertise. Ecological restoration will only be successful if it addresses both engineered infrastructures and social justice.
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Wong, Hoi-kei, und 黃凱琦. „Urban river as eco-infrastructure : refresh, restore, regenerate : 99% success urban river restoration“. Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2012. http://hdl.handle.net/10722/196534.

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Zhen, Jinzhu. „Exploring the Impact of Eco-migration Project, Ordos, Inner Mongolia, CHina“. Thesis, Uppsala universitet, Institutionen för geovetenskaper, 2013. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-208917.

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To reverse the emergency environmental degradation of Ordos, Inner Mongolia, China, the localgovernment enforced a new developing project – Eco-migration, which aims at bothenvironmental restoration and poverty alleviation. Within ten years’ time, more than 400,000 ruralresidents were relocated. Through professional training and labor transportation, the financialcondition was largely improved. The annual income of these eco-migrants was highly raised from0.2 USD a day in 2000 to 3.51 USD a day in 2010. From the environmental perspective, morethan 70 percent of the sandy wasteland was restored. The vegetable coverage jumped up to 75percent, comparing to 30 percent in 2000. Through field study, the feedbacks from theseeco-migrants were collected. Eco-migrants were highly satisfied with the economic andenvironmental improvement. However, there are lots of improvements can be done. In one word,that’s the way the government trying to achieve the goal of sustainable development, whichproviding valuable experience for future.
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Minnaar, Renée Amelia. „Remediator - Restoring the dichotomous relationship between industry and nature through an urban eco-textile mill & dyehouse“. Diss., University of Pretoria, 2018. http://hdl.handle.net/2263/63626.

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Industrialization brought about dramatic changes in many major cities around the world, including Johannesburg. However, rapid technological advancements have resulted in the abandonment of many industrial sites often within the confines of expanding cities as is the case with the old Johannesburg Gasworks. The repercussions of the hazardous industrial processes of the past are still present on the site in the form of pollution. This, together with South Africa’s lack of protection of our industrial heritage, has awoken the fear that these post- industrial artefacts might be in danger of becoming extinct if their value is not recognised. This dissertation aims to investigate the potential of redundant industrial sites like the old Johannesburg Gasworks to mitigate the environmental and social issues resulting from the past in an attempt to reintegrate the site back into the surrounding urban fabric. Through the understanding and application of environmental and heritage theories, this dissertation hopes to find a means of using architecture as a tool to mediate the dichotomous relationship between industry and nature, resulting from an exploitative world view, and inspire a new archetype for industrial architecture, that is able to inspire mutually beneficial relationships between industry and nature, whilst creating a didactic and dialectical relationship between the existing industrial heritage of the past and the envisioned contemporary architecture of the future.
Mini Dissertation MArch(Prof)--University of Pretoria, 2018.
Architecture
MArch(Prof)
Unrestricted
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Belliard, Jean-Philippe. „Bio-physical controls on tidal network geomorphology“. Thesis, Queen Mary, University of London, 2014. http://qmro.qmul.ac.uk/xmlui/handle/123456789/7904.

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Looking over a tidal wetland, the tidal network characterised by its intricate system of bifurcating, blind-ended tidal courses clearly stands out from the overall landscape. This tidal landform exerts a fundamental control on the morphology and ecology within the tidal environment. With today’s recognition of the ecological, economical and societal values provided by tidal wetlands, which has been notably reflected in the development of restoration management strategies across Europe and USA, there is a need to fully understand the nature and development of tidal networks as well as their relationships with associated landforms and biotic components (e.g. vegetation), to eventually guarantee the success of current and future restoration practices. Accordingly, this research aims to bring further insights into the bio-physical controls on the geomorphology of tidal networks. To this end, a combination of remote sensing, modelling and field activities was employed. A geo-spatial analysis was performed at Queen Mary, University of London (UK), to address the variability of tidal network patterns. A series of network scale morphometric variables was extracted using airborne LiDAR data among selected tidal networks across the UK depicting different planview morphologies, and supplemented with the collection of corresponding marsh scale environmental variables from published sources. Multivariate statistics were then performed to characterise the variability of tidal network patterns and identify the inherent environmental controls. The analysis has revealed that every network type can be characterised based upon measures of network size and complexity, with each network pattern depicting proper morphometric aspects. Particularly, the stream Strahler order and the median depth of the network main channel have the highest discriminating weight on the patterns investigated. High correlation between the latter variable and network main channel width has revealed that linear, linear-dendritic and dendritic networks followed a transitional gradient in their aspect ratio approximated by a power law and thus are seen to depict similar erosional processes. To the contrary, meandering networks clearly depart from this relationship, and show particular segregation in their aspect ratios with respect to dendritic networks. Globally, differentiation on network morphometric properties has been linked to environmental conditions specific to the marsh physiographic setting within which a tidal network develops. Conceptually, tidal networks seem to adapt to marsh environmental conditions by adopting suitable morphologies to drain their tidal basin effectively. An eco-geomorphic modelling framework was developed at University of Trento (Italy), to address tidal network morphological development. In line with current theories as well as modelling advances and challenges in the field of tidal network ontogeny, emphasis was thus placed on the investigation of tidal channel formation and evolution in progressive marsh accretional context. Under these environmental conditions, tidal network development can be ascribed to the combination of two channel-forming processes: channel initiation results from bottom incisions in regions where topographic depressions occur; channel elaboration results from differential deposition, contributing to the deepening of the tidal channels relative to the adjacent marsh platform. Further evolutionary stages including channel reduction proceed from the horizontal progradation of the marsh platform which may lead eventually to channel infilling. Moreover, both qualitative and quantitative results allude to an acceleration of the morphological development of the synthetic tidal networks with increasing sediment supply. These different observations thus emphasise the prevalence of depositional processes in shaping tidal channels. In a second stage, the investigation was extended to the role of the initial tidal flat morphology as an inherent control on tidal network development, by considering different scenarios of topographic perturbations, which has revealed its legacy on tidal network morphological features. Modelling experiments have also acknowledged salt marsh macrophytes as a potential control on network evolution depending on their biomass distribution within the tidal frame. However, tidal channel morphodynamcis appears to be sensitive to the way biomass growth is mathematically parameterised in the model. In view of the current challenges in transcribing mathematically such a dynamic process and the relevance of bio-physical interactions in driving salt marsh and tidal network evolution, a field survey was conducted in a temperate salt marsh in the Netherlands, as part of the mobility to UNESCO-IHE (Netherlands) in partnership with University of Antwerp (Belgium), to assess vegetation distribution and productivity in the tidal frame. Particularly, emphasis was placed on extending investigations on the possible presence of relationships involving vegetation properties in different climatic and ecological conditions from those characterising these previously documented relationships. Regression analysis has revealed that biomass growth can be expressed as a linear function of marsh relative elevation, providing therefore direct empirical validation for corresponding assumptions reported in the literature and used in the present modelling framework; surprisingly, that increase did not correlate with an increase in species richness and diversity. Analysis of likely associations between vegetation morphometrics and total standing biomass yielded only a single linear relationship linking the latter variable to stem height. In truth, these observations may bear reconsiderations on the global validity of the assumptions used in the formulation of some eco-geomorphic processes which are applied in the study and prediction of wetland resiliency facing climate change.
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Tomblin, David Christian. „Managing Boundaries, Healing the Homeland: Ecological Restoration and the Revitalization of the White Mountain Apache Tribe, 1933 – 2000“. Diss., Virginia Tech, 2009. http://hdl.handle.net/10919/27577.

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The main argument of this dissertation is that the White Mountain Apache Tribe's appropriation of ecological restoration played a vital role in reinstituting control over knowledge production and eco-cultural resources on the Fort Apache Indian Reservation in the second half of the twentieth century. As a corollary, I argue that the shift in knowledge production practices from a paternalistic foundation to a community-based approach resulted in positive consequences for the ecological health of the Apachean landscape and Apache culture. The democratization of science and technology on the reservation, therefore, proved paramount to the reestablishment of a relatively sustainable Apache society. Beginning with the Indian New Deal, the White Mountain Apache slowly developed the capacity to employ ecological restoration as an eco-political tool to free themselves from a long history of Euro-American cultural oppression and natural resource exploitation. Tribal restoration projects embodied the dual political function of cultural resistance to and cultural exchange with Western-based land management organizations. Apache resistance challenged Euro-American notions of restoration, nature, and sustainability while maintaining cultural identity, reasserting cultural autonomy, and protecting tribal sovereignty. But at the same time, the Apache depended on cultural exchange with federal and state land management agencies to successfully manage their natural resources and build an ecologically knowledgeable tribal workforce. Initially adopting a utilitarian conservation model of land management, restoration projects aided the creation of a relatively strong tribal economy. In addition, early successes with trout, elk, and forest restoration projects eventually granted the Tribe political leverage when they sought to reassume control over reservation resources from the Bureau of Indian Affairs and the Fish and Wildlife Service. Building on this foundation, Apache restoration work significantly diverged in character from the typical Euro-American restoration project by the 1990s. While striving toward self-sufficiency, the Tribe hybridized tribal cultural values with Western ecological values in their restoration efforts. These projects evolved the tripartite capacity to heal ecologically degraded reservation lands, to establish a degree of economic freedom from the federal government, and to restore cultural traditions. Having reversed their historical relationship of subjugation with government agencies, the Apache currently have almost full decision-making powers over tribal eco-cultural resources.
Ph. D.
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8

Zhuravlyova, Yelena. „Zdravé bydlení“. Doctoral thesis, Vysoké učení technické v Brně. Fakulta architektury, 2015. http://www.nusl.cz/ntk/nusl-234418.

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Over the years, every major city turns into a knot of intractable problems: overpopulation, traffic jams, environmental degradation. Some countries make a faster conversion from an industrial development to an information growth phase, than the infrastructural changes take place. Therefore, environmental design and construction would not be short-termed, but rather will be the long-term targets for all the groups associated with the construction. The healthy living is one of the most important reasons to start a complicated long-term reconstruction of eco-cities. Successful ecological reconstitution requires a knowledge about already implemented exemplary solutions. For this purpose, the dissertation analyzes the basic ecological problems of settlements, analyzing the examples of approaches to improve the environmental performance of cities on the reference of foreign experience and creates criteria and principles for designing urban structures for healthy living in CR.
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Belliard, Jean-Philippe. „Bio-physical controls on tidal network geomorphology“. Doctoral thesis, Università degli studi di Trento, 2014. https://hdl.handle.net/11572/368998.

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Looking over a tidal wetland, the tidal network characterised by its intricate system of bifurcating, blind-ended tidal courses clearly stands out from the overall landscape. This tidal landform exerts a fundamental control on the morphology and ecology within the tidal environment. With today’s recognition of the ecological, economical and societal values provided by tidal wetlands, which has been notably reflected in the development of restoration management strategies across Europe and USA, there is a need to fully understand the nature and development of tidal networks as well as their relationships with associated landforms and biotic components (e.g. vegetation), to eventually guarantee the success of current and future restoration practices. Accordingly, this research aims to bring further insights into the bio-physical controls on the geomorphology of tidal networks. To this end, a combination of remote sensing, modelling and field activities was employed. A geo-spatial analysis was performed at Queen Mary, University of London (UK), to address the variability of tidal network patterns. A series of network scale morphometric variables was extracted using airborne LiDAR data among selected tidal networks across the UK depicting different planview morphologies, and supplemented with the collection of corresponding marsh scale environmental variables from published sources. Multivariate statistics were then performed to characterise the variability of tidal network patterns and identify the inherent environmental controls. The analysis has revealed that every network type can be characterised based upon measures of network size and complexity, with each network pattern depicting proper morphometric aspects. Particularly, the stream Strahler order and the median depth of the network main channel have the highest discriminating weight on the patterns investigated. High correlation between the latter variable and network main channel width has revealed that linear, linear-dendritic and dendritic networks followed a transitional gradient in their aspect ratio approximated by a power law and thus are seen to depict similar erosional processes. To the contrary, meandering networks clearly depart from this relationship, and show particular segregation in their aspect ratios with respect to dendritic networks. Globally, differentiation on network morphometric properties has been linked to environmental conditions specific to the marsh physiographic setting within which a tidal network develops. Conceptually, tidal networks seem to adapt to marsh environmental conditions by adopting suitable morphologies to drain their tidal basin effectively.An eco-geomorphic modelling framework was developed at University of Trento (Italy), to address tidal network morphological development. In line with current theories as well as modelling advances and challenges in the field of tidal network ontogeny, emphasis was thus placed on the investigation of tidal channel formation and evolution in progressive marsh accretional context. Under these environmental conditions, tidal network development can be ascribed to the combination of two channel-forming processes: channel initiation results from bottom incisions in regions where topographic depressions occur; channel elaboration results from differential deposition, contributing to the deepening of the tidal channels relative to the adjacent marsh platform. Further evolutionary stages including channel reduction proceed from the horizontal progradation of the marsh platform which may lead eventually to channel infilling. Moreover, both qualitative and quantitative results allude to an acceleration of the morphological development of the synthetic tidal networks with increasing sediment supply. These different observations thus emphasise the prevalence of depositional processes in shaping tidal channels. In a second stage, the investigation was extended to the role of the initial tidal flat morphology as an inherent control on tidal network development, by considering different scenarios of topographic perturbations, which has revealed its legacy on tidal network morphological features. Modelling experiments have also acknowledged salt marsh macrophytes as a potential control on network evolution depending on their biomass distribution within the tidal frame. However, tidal channel morphodynamcis appears to be sensitive to the way biomass growth is mathematically parameterised in the model. In view of the current challenges in transcribing mathematically such a dynamic process and the relevance of bio-physical interactions in driving salt marsh and tidal network evolution, a field survey was conducted in a temperate salt marsh in the Netherlands, as part of the mobility to UNESCO-IHE (Netherlands) in partnership with University of Antwerp (Belgium), to assess vegetation distribution and productivity in the tidal frame. Particularly, emphasis was placed on extending investigations on the possible presence of relationships involving vegetation properties in different climatic and ecological conditions from those characterising these previously documented relationships. Regression analysis has revealed that biomass growth can be expressed as a linear function of marsh relative elevation, providing therefore direct empirical validation for corresponding assumptions reported in the literature and used in the present modelling framework; surprisingly, that increase did not correlate with an increase in species richness and diversity. Analysis of likely associations between vegetation morphometrics and total standing biomass yielded only a single linear relationship linking the latter variable to stem height. In truth, these observations may bear reconsiderations on the global validity of the assumptions used in the formulation of some eco-geomorphic processes which are applied in the study and prediction of wetland resiliency facing climate change.
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Huang, Jung-Chen, und 黃榮振. „The Establishment of Eco-park based on The Restoration of The Derelict Land-Case Study, Fu Bao Eco-Park“. Thesis, 2003. http://ndltd.ncl.edu.tw/handle/66531810010726641961.

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碩士
國立臺灣大學
地理環境資源學研究所
91
After Taiwan’s joining the WTO, globalized economy would occupy most of the market of the aquaculture and agriculture of Taiwan by the low price resulted from low cost of production. According to this, the lands used by those primary industries would turn into derelict lands. The derelict lands would become a pressure to push the government to release these lands for exploitation. Although these lands fall into disuse, they are recovering from the impacts of human activities before and on the way back to natural condition. The release would be a crisis for the environment of Taiwan. However, the lands are not affordable because of the depression of Taiwan now. Therefore, derelict lands would be the main landscape of rural areas in Taiwan. Besides leaving the lands unused, we can try to reconstruct the ecological functions of the lands to provide more living spaces for human beings and other creatures, turning the economic crisis of the aquaculture and agriculture of Taiwan into a turning point of the environment. The study would review the problems encountered and experiences accumulated during the process of the establishment of Fu Bao Eco-Park and provide a new model for the coexistence and flourishing between human beings and environment. The model would also be a reference for others trying to establish an eco-park. Then, the study will provide some suggestions for the industrial, community and environmental planning of future Fu Bao Eco-Park, based on the model and the resources of local industries, community and environment, turning the resources of the aquaculture and agriculture, edged out by the globalized economy, into other kinds of resources lived on by local people and creating another living space for the environment of Taiwan.
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Bücher zum Thema "Eco-restoration"

1

1945-, Sharma B. D., und Tej Kumari, Hrsg. Himalayan natural resources: Eco-threats & restoration study. New Delhi: Indus Pub. Co., 1998.

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(India), Earth Observation System, Integrated Mission for Sustainable Development (India) und Indian Space Research Organisation. Regional Remote Sensing Service Centre., Hrsg. Integrated Mission for Sustainable Development, Nilgiris District, Tamil Nadu: A project for eco-restoration and eco-development. Bangalore: EOS/NNRHS Office, ISRO HQ & RRSSC, 2001.

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P, Soni, Vasistha H. B, Om Kumar of ICFRE, Forest Research Institute and Colleges. und Indian Council of Forestry Research and Education., Hrsg. Surface mined lands, problems and prospects: A report on eco-restoration of rock phosphate mined area. Dehra Dun: Division of Forest, Ecology, and Environment, Forest Research Institute, 1992.

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4

Harland, Edward. Eco-renovation: The ecological home improvement guide. Post Mills, Vt: Chelsea Green Pub. Co., 1994.

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5

Harland, Edward. Eco-renovation: The ecological home improvement guide. Totnes: Green Books in association with the Ecology Building Society, 2004.

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Campetella, Paola. Qui nacque l'Europa: Il carcere di Santo Stefano a Ventotene : una proposta di riuso tra storia, conservazione, ed eco-energia. Roma: GBE/Ginevra Bentivoglio editoriA, 2016.

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Monaci, Anna. Shali: A matter of conservation : result of the cultural heritage activities of the Italo-Egyptian development cooperation project : "Protection and promotion of cultural heritage and development of eco-tourism activities in the Siwa Oasis" 2006-2009. Saonara (Pd) [i.e. Padua, Italy]: Il prato, 2009.

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Pandey. Eco-Restoration of Mine Land. Wiley & Sons, Limited, John, 2023.

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Ahirwal, Jitendra, Roopali Roychowdhury, Ritu Chaturvedi und Vimal Chandra Pandey. Eco-Restoration of Mine Land. Wiley & Sons, Incorporated, John, 2023.

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Ahirwal, Jitendra, Roopali Roychowdhury, Ritu Chaturvedi und Vimal Chandra Pandey. Eco-Restoration of Mine Land. Wiley & Sons, Incorporated, John, 2023.

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Buchteile zum Thema "Eco-restoration"

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Schmid, Rolf, und Xin Xiong. „Eco-Restoration“. In China’s Environmental Solutions, 109–33. New York: Jenny Stanford Publishing, 2023. http://dx.doi.org/10.1201/9781003456803-6.

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Chakraborty, Susanta Kumar. „Eco-restoration of Rivers“. In Riverine Ecology Volume 2, 655–746. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-53941-2_8.

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Ball, Lillian, Tim Collins, Reiko Goto und Betsy Damon. „Environmental Art as Eco-cultural Restoration“. In Human Dimensions of Ecological Restoration, 299–312. Washington, DC: Island Press/Center for Resource Economics, 2011. http://dx.doi.org/10.5822/978-1-61091-039-2_21.

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Schoukens, Hendrik. „Legal considerations in operationalizing eco-restoration in the European Union“. In Ecological Restoration Law, 167–91. Abingdon, Oxon [UK] ; New York, NY : Routledge, 2019. | Series: Transitional justice: Routledge, 2019. http://dx.doi.org/10.4324/9780429468315-8.

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Stevens, Michelle, und Hamid K. Ahmed. „Eco-cultural Restoration of the Mesopotamian Marshes, Southern Iraq“. In Human Dimensions of Ecological Restoration, 289–98. Washington, DC: Island Press/Center for Resource Economics, 2011. http://dx.doi.org/10.5822/978-1-61091-039-2_20.

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Barwal, Anjali, und Atisha Sood. „Eco-Restoration for Climate Resilience and Disaster Risk Reduction“. In Ecosystem Restoration: Towards Sustainability and Resilient Development, 335–42. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-99-3687-8_18.

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Etemire, Uzuazo, und Menes Abinami Muzan. „Public participation and socio-economic justice in eco-restoration law and governance“. In Ecological Restoration Law, 192–213. Abingdon, Oxon [UK] ; New York, NY : Routledge, 2019. | Series: Transitional justice: Routledge, 2019. http://dx.doi.org/10.4324/9780429468315-9.

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Tanaka, Wataru, und Rei Itsukushima. „Attempt to Develop High-Value Rice in the Shimojin District, Mashiki Town, Kumamoto Prefecture: Transition Into Sustainable Local Community Using Disaster Recovery from the 2016 Kumamoto Earthquakes as a Branding Strategy“. In Decision Science for Future Earth, 233–51. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-15-8632-3_12.

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AbstractIn this chapter, we report the case of a co-design project undertaken in the Shimojin district that was severely damaged by the 2016 Kumamoto Earthquakes. We, IDS3, and local residents have not only attempted to recover the aforementioned district from the damages it suffered due to the earthquakes but also unite its entire community, which is currently suffering from population decline and aging. To supplement its local agriculture, we initiated the co-design project as a means to promote rice branding by adding value by utilizing the biodiversity in the district and transforming the district’s rice paddy fields into eco-friendly paddy systems. We were involved with the project since the consensus building phase owing to our co-design experience with regard to restoration planning at disaster restoration sites and knowledge about the district. We primarily conducted our research in three fields: (1) design of the recovery plan of eco-friendly paddy fields and agricultural ditches, (2) consensus formation for rice branding, (3) exploration of eco-friendly farming method suitable for the region under study.
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Madan, Aditi, Anil Kumar Gupta und Manish Kumar Goyal. „Lifestyle for Environment: LiFE Mission and Synergies with Eco-restoration“. In Ecosystem Restoration: Towards Sustainability and Resilient Development, 29–44. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-99-3687-8_2.

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Kumar, Vineet, S. K. Shahi und Simranjeet Singh. „Bioremediation: An Eco-sustainable Approach for Restoration of Contaminated Sites“. In Microbial Bioprospecting for Sustainable Development, 115–36. Singapore: Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-13-0053-0_6.

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Konferenzberichte zum Thema "Eco-restoration"

1

Mazzoleni, I., P. Ra, A. Barthakur, S. Price, V. Zajfen, S. Varma, B. Mehlomakulu, H. Portillo, S. Milner und S. Proudian. „Eco-systematic restoration: a model community at Salton Sea“. In DESIGN AND NATURE 2008. Southampton, UK: WIT Press, 2008. http://dx.doi.org/10.2495/dn080211.

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Linglei Zhang und Jia Li. „Eco-hydrological study on restoration threshold of the Lhalu wetland“. In 2011 Second International Conference on Mechanic Automation and Control Engineering (MACE). IEEE, 2011. http://dx.doi.org/10.1109/mace.2011.5988517.

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Bortnyk, S., K. Kulyk, M. Lavruk, T. Lavruk, O. Pidkova, O. Romanova, I. Sarakhman und L. Tymuliak. „Local development eco-projects and their role in small rivers restoration in Ukraine.“ In Geoinformatics. European Association of Geoscientists & Engineers, 2021. http://dx.doi.org/10.3997/2214-4609.20215521155.

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Ekwuabu, C. B., C. B. Chikere und O. Akaranta. „Effect of Different Nutrient Amendments on Eco-Restoration of a Crude Oil Polluted Soil“. In SPE African Health, Safety, Security, Environment, and Social Responsibility Conference and Exhibition. Society of Petroleum Engineers, 2016. http://dx.doi.org/10.2118/183608-ms.

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Pathak, N., T. R. Girija und C. Mahanta. „Modeling Approach towards Eco-Restoration Strategies for the Polluted Tributaries of the Brahmaputra River System“. In World Environmental and Water Resources Congress 2007. Reston, VA: American Society of Civil Engineers, 2007. http://dx.doi.org/10.1061/40927(243)594.

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TSUJIMOTO, Tetsuro. „Restoration program of bay ecosystem through eco-compatible management of river basin complex around the bay“. In Journées Nationales Génie Côtier - Génie Civil. Editions Paralia, 2010. http://dx.doi.org/10.5150/jngcgc.2010.075-t.

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Zhang, Dapeng. „Tourism Development in Resource-Exhausted City Based on Eco-Environment Restoration -- Take Huangshi City as an Example“. In 2012 International Conference on Business Computing and Global Informatization (BCGIN). IEEE, 2012. http://dx.doi.org/10.1109/bcgin.2012.261.

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Wei, Yali, Yuxiao He, Gangcai Liu und Jie Jin. „Notice of Retraction: Features of Eco-Environmental and Ecological Restoration in the Yuanmou Dry-Hot Valley of Yunnan, China“. In 2011 5th International Conference on Bioinformatics and Biomedical Engineering. IEEE, 2011. http://dx.doi.org/10.1109/icbbe.2011.5781564.

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Zhang, Jing, und Yinglan Sun. „Eco-environmental Quality and Ecological Restoration: A Case Study in Wetland of the Loushan River Estuary, Jiaozhou Bay, Qingdao“. In 2008 International Workshop on Geoscience and Remote Sensing (ETT and GRS). IEEE, 2008. http://dx.doi.org/10.1109/ettandgrs.2008.176.

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Wang, Wenbo, Jiancang Xie, Zhanbin Li und Jiwei Zhu. „Research on Water & Soil Conservation and Eco-restoration Management in West-East Natural Gas Pipeline Project of China“. In 2010 International Conference on E-Business and E-Government (ICEE). IEEE, 2010. http://dx.doi.org/10.1109/icee.2010.210.

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Berichte der Organisationen zum Thema "Eco-restoration"

1

Grabowski, Zbigniew. Removing Dams, Constructing Science: Watershed Restoration Through A Socio-Eco-Technical Systems Lens. Portland State University Library, Januar 2000. http://dx.doi.org/10.15760/etd.6399.

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Bos, Oscar G., Pauline Kamermans, Linda Tonk, Mirjam Schutter, Margot Maathuis, Ad van Gool, Tom van der Have et al. Eco-friendly reef restoration pilots in offshore wind farms : Report Project ECOFRIEND 2019-2023. IJmuiden: Wageningen Marine Research, 2023. http://dx.doi.org/10.18174/632058.

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Shion Yee, Au, Silvia Cardascia und Xueliang Cai. Ecological Protection in the People’s Republic of China: Pilot Case Studies on Comprehensive Eco-Compensation, Poverty Alleviation, and Green Development. Asian Development Bank, Mai 2023. http://dx.doi.org/10.22617/wps230240-2.

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The working paper provides county-level case studies of ecological compensation in the People’s Republic of China (PRC). Eco-compensation has become an important policy framework in the PRC, involving a wide range of programs that promote conservation and environmental restoration while supporting local livelihoods and poverty alleviation. It uses a package of incentive-based policies and regulatory instruments to tackle environmental issues such as water pollution, biodiversity loss, land degradation, or deforestation. The PRC’s experience can offer useful insights to other countries facing similar challenges in environmental management.
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