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161:. Planting certain species together can protect one or both from extreme temperature fluctuations, drying out in the sun, harsh winds, and predators, in addition to improving soil composition. Competition can occur within or between species, and generally weaker individuals and weaker species die out, resulting in increased plant spacing. Spatial arrangement of revegetation species also influences
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is more likely to be used by a wider variety of animal species. High-density edible plants mean animals do not have to forage as far to eat, and a plant species even being in the presence of palatable species could lead to it having more interaction with animals. Abiotic aspects of the ecosystem are
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has shown that revegetation projects can significantly improve urban bird populations. The
Brisbane study showed that connecting a revegetation patch with existing habitat improved bird species richness, while simply concentrating on making large patches of habitat was the best way to increase bird
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network of grasses is useful for short-term erosion control, particularly on sloping ground. Establishing long-term plant communities requires forethought as to appropriate species for the climate, size of stock required, and impact of replanted vegetation on local fauna. The motivations behind
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abundance. Revegetation plans, therefore, need to consider how the revegetated sites are connected with existing habitat patches. Revegetation in agricultural areas can support breeding bird populations, but often it supports more common species, rather than those that are in decline.
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Revegetation is often used to join up patches of natural habitat that have been lost and can be a very important tool in places where much of the natural vegetation has been cleared. It is therefore particularly important in urban environments, and research in
240:. In some cases, the native soil may be removed before construction and replaced with fill for the duration of the work. After construction is completed, the fill is again removed and replaced with the reserved native soil for revegetation.
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Neuenkamp, Lena; Prober, Suzanne M.; Price, Jodi N.; Zobel, Martin; Standish, Rachel J. (August 2019). "Benefits of mycorrhizal inoculation to ecological restoration depend on plant functional type, restoration context and time".
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The spatial arrangement of the selected plant species influences the vegetation system and the greater habitat system. Spatial planning determines interactions between plant species. These interactions can be
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Revegetating
Riparian Areas in the Southwest “Lessons Learned” David R. Dreesen, Agronomist/Horticulturist Gregory A. Fenchel, Manager USDA–NRCS Los Lunas Plant Materials Center
453:"Spatially designed revegetation-why the spatial arrangement of plants should be as important to revegetation as they are to natural systems: Spatially designed revegetation"
258:-plant communities, are important to the success of revegetation efforts. Most woody plant species need these root-fungi communities to thrive, and nursery or
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193:. However, higher density revegetation requires the use of more soil nutrients and water, which can potentially dry out and deplete the soil. For
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173:. However, too much competition within the seed dispersal range can cause reproduction to be suppressed, so it is important to balance.
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transplants may not have sufficient or correct mycorrhizae for good survival. Mycorhizal communities are particularly beneficial to
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Broadhurst, Linda M.; Lowe, Andrew; Coates, David J.; Cunningham, Saul A.; McDonald, Maurice; Vesk, Peter A.; Yates, Colin (2008).
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Selwood, Katherine; Mac Nally, Ralph; Thomson, James R. (2009). "Native bird breeding in a chronosequence of revegetated sites".
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169:. For species whose seeds are wind-dispersed and animal-dispersed, plant diversity in seed dispersal range is important for
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dramatically in adjoining bodies of water. Revegetation also aids protection of engineered grades and other earthworks.
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On the ecosystem level, the spatial planning of revegetation species influences animal species. A more varied plant
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Revegetation restoration for culvert replacement in a wetland
Ashenhurst, Amber; Polzin, Mary Louise 2010
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270:-grasses, and soil environments low in phosphorus. Two types of mycorrhizal fungi aid in restoration:
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revegetation are diverse, answering needs that are both technical and aesthetic, but it is usually
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may involve soil amendment, replacement, or creation, particularly for areas that have been
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359:"The influence of patch area and connectivity on avian communities in urban revegetation"
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of bank soil, and if tree roots begin to lose their strength, the bank is susceptible to
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McCallum, Kimberly P.; Lowe, Andrew J.; Breed, Martin F.; Paton, David C. (May 2018).
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Shanahan, Danielle F.; Miller, Craig; Possingham, Hugh P.; Fuller, Richard A. (2011).
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586:"Revegetation in Alaska: Usibelli, seeds & topsoil, and mycorrhizae," Dot Helm.
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CSIRO ScienceImage 4361 Revegetation of degraded site northern China 1991
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prevention that is the primary reason. Revegetation helps prevent
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205:. Fibrous or matted roots in particular help to prevent against
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projects, accelerated process designed to repair damage to a
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of disturbed land. This may be a natural process produced by
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A Revegetation Manual For Alaska Stoney J. Wright 2008
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also altered. Higher density revegetation can reduce
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616:10.1111/j.1752-4571.2008.00045.x
288:Rewilding (conservation biology)
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209:, and are typically found in
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94:to disturbed lands, usually
320:Agri-environmental measures
47:in British Columbia, Canada
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662:Environmental soil science
657:Environmental engineering
603:Evolutionary Applications
413:10.1007/s00442-008-1221-9
130:) provide good examples.
366:Biological Conservation
244:Mycorrhizal communities
652:Ecological restoration
515:: CS1 maint: others (
276:arbuscular mycorrhizal
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457:Restoration Ecology
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310:Land Rehabilitation
305:Restoration Ecology
232:or suffered severe
178:species composition
148:Spatial arrangement
122:Organisations like
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548:: 140–149.
249:Mycorrhizae
230:strip mined
163:pollination
159:competitive
646:Categories
494:187609141X
326:References
274:fungi and
260:greenhouse
203:land slips
92:fertilizer
66:, manmade
64:succession
562:1754-5048
511:cite book
503:222791122
393:Oecologia
300:Tubestock
294:The Lorax
253:symbiotic
217:species.
117:turbidity
72:landscape
68:rewilding
635:25567799
570:91974112
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282:See also
195:riparian
141:Brisbane
76:wildfire
667:Habitat
626:3352390
429:7993489
401:Bibcode
278:fungi.
234:erosion
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74:due to
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256:fungal
100:clover
80:mining
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425:S2CID
362:(PDF)
215:sedge
84:flood
60:plant
27:, USA
631:PMID
558:ISSN
517:link
499:OCLC
489:ISBN
417:PMID
213:and
211:reed
189:and
165:and
104:root
90:and
88:seed
56:soil
621:PMC
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Text is available under the Creative Commons Attribution-ShareAlike License. Additional terms may apply.
