Relevant bibliographies by topics / Coppicing

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters

Academic literature on the topic 'Coppicing'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 August 2024

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Journal articles on the topic "Coppicing"

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Kalia, Sanjay, R. K. Kalia, and S. K. Sharma. "Evaluation of Clonal Variability in Shoot Coppicing Ability and in vitro Responses of Dalbergia sissoo Roxb." Silvae Genetica 53, no. 1-6 (December 1, 2004): 212–20. http://dx.doi.org/10.1515/sg-2004-0039.

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Summary Clonal variations were observed amongst 12 clones of Dalbergia sissoo belonging to four states (U.P, Uttaranchal, Haryana and Rajasthan) of India, representing four different geographical zones in respect of ex vitro shoot coppicing ability and in vitro responses. Coppicing ability of shoot hedges of clones exhibited significant variation which ranged from average of 13.81 coppiced shoots (Clone 40, Uttar Pradesh) to 9.29 (Clone 64, Haryana). Comparative analysis of clones from different regions in respect to their coppicing ability revealed that clones from U.P had higher coppicing ability whereas those from Haryana proved to be least coppicers. Regional variations were also exhibited in the in vitro multiple bud induction ability on nodal explants excised from shoot hedges of clones (mean number of buds induced and percentage of cultures forming multiple buds). Regional as well as inter clonal variations were recorded in the shoot proliferation efficiency as well as rootability of microshoots of these clones as well as their optimal plant growth regulator requirements. BAP alone (2.5 μM) was sufficient for inducing multiple buds on cultured nodal explants of Uttaranchal and Uttar Pradesh region clones. On the contrary, clones from Rajasthan and Haryana had higher optimal requirement of BAP and in addition, they required media to be supplemented with auxin (NAA) for induction of multiple buds on explants. Correlation analysis between shoot coppicing ability of clones and in vitro performances of explants of these clones cultured on 2.5 μM BAP indicates a positive correlation. Observation lays credence to our view that these characters are genetically controlled and shoot coppicing can be used as a marker character in optimizing in vitro performance of clones. Using the information generated by this paper in vitro production of elite planting material can be maximized by ameliorating plant growth regulator requirement in the medium.
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Padoan, Elio, Iride Passarella, Marco Prati, Sara Bergante, Gianni Facciotto, and Franco Ajmone-Marsan. "The Suitability of Short Rotation Coppice Crops for Phytoremediation of Urban Soils." Applied Sciences 10, no. 1 (December 31, 2019): 307. http://dx.doi.org/10.3390/app10010307.

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This experiment was aimed at verifying the usefulness of phytoremediation using Short Rotation Coppice (SRC) in an urban Zn-contaminated site. Besides elemental uptake and reclamation, the SRC method was applied to evaluate the additional benefits of a green infrastructure. Nine different plants with rapid growth and large biomass production were selected: three Populus clones, three Salix hybrids, and three Robinia genotypes. Annual and biennial coppicing were evaluated. Poplar clones were more productive using annual coppicing, while Salix and Robinia produced higher biomass in blocks not coppiced. Poplar had the highest phytoextraction rate during the second year, with 1077 g/ha. Salix clones S1 and S3 extracted similar quantities using biennial coppicing. After two years, the bioavailable fraction of Zn decreased significantly using all species, from the 26% decrease of Robinia to the 36% decrease of Salix. The short rotation coppice method proved to be useful in an urban context, for both landscape and limiting the access to the contaminated area. Improving the biomass yield through the phytomanagement options (fertilization, irrigation, coppicing, etc.) could make SRC phytoremediation an economic and effective solution to manage urban contaminated areas, coupling the added values of biomass production to the landscape benefits.
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Whittock, S. P., L. A. Apiolaza, C. M. Kelly, and B. M. Potts. "Genetic control of coppice and lignotuber development in Eucalyptus globulus." Australian Journal of Botany 51, no. 1 (2003): 57. http://dx.doi.org/10.1071/bt02049.

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The economics of short-rotation pulpwood plantations of Eucalyptus globulus as a coppice crop are influenced by stump survival and subsequent coppice growth rates. This study revealed significant genetic diversity in coppicing traits, both within and between subraces, following felling in a progeny trial after 9 years of growth. A total of 67% of trees coppiced after 14 months, but subraces varied from 43 to 73%. Heritabilities for coppice success (0.07) and subsequent growth (0.16–0.17) were low but statistically significant. Strong genetic correlation between presence/absence of coppice, the number of stems coppicing from the stump and modal coppice height, indicate that selection is possible by using the binary trait. The ability of a tree to coppice was genetically correlated with tree growth prior to felling (rg = 0.61) and with nursery-grown seedling traits, where large genetic differences were observed in the development of lignotubers. Coppicing was genetically correlated with the number of nodes with lignotubers (rg = 0.66) and seedling stem diameter at the cotyledonary node (rg = 0.91). These traits were uncorrelated with later age growth and with each other. The results suggest that coppicing is influenced by three independent mechanisms—lignotuber development, enlargement of the seedling stem at the cotyledonary node and vigorous growth—which enhance ability to survive catastrophic damage, and indicate that both lignotuber and coppice development can be altered by both natural and artificial selection.
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Barbalat, Sylvie, and Daniel Gétaz. "Influence de la remise en exploitation de taillis-sous-futaie sur la faune entomologique | Influence of Renewed Coppicing with Standards on the Entomological Fauna." Schweizerische Zeitschrift fur Forstwesen 150, no. 11 (November 1, 1999): 429–36. http://dx.doi.org/10.3188/szf.1999.0429.

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This study estimates the influence of renewed coppicing with standards on the abundance and diversity of four beetle families(Buprestidae, Cerambycidae, Lucanidae and phytophagous Scarabaeidae) in a forest where this practice was abandoned. The study was conducted from mid-May to mid-August 1998 in the region of Ferreyres - Moiry (VD). Eight sites were chosen for the sampling of these insects, which were captured by means of window and water traps. Coppicing with standards is very favourable to these beetles, which are often thermophilous. In such places, they find stumps and branch heaps, which are suitable for the development of their larvae. On the contrary, in abandoned coppice, the abundance and diversity of the selected beetles are very low. This kind of forest is extremely dark and unsuitable for thermophi-lous species. Renewed coppicing with standards is, therefore, very recommendable. It creates very favourable biotopes for the beetles, where they find both light and deadwood and which, to a certain extent, recreate the biotopes naturally formed by the fall of old trees in primitive forests.
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van der Werf, Sieuwke. "The influence of coppicing on vegetation." Vegetatio 92, no. 2 (March 1991): 97–110. http://dx.doi.org/10.1007/bf00036031.

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Chirwa, T. S., P. L. Mafongoya, and R. Chintu. "Mixed planted-fallows using coppicing and non-coppicing tree species for degraded Acrisols in eastern Zambia." Agroforestry Systems 59, no. 3 (November 2003): 243–51. http://dx.doi.org/10.1023/b:agfo.0000005225.12629.61.

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Oliveira, Judyson de M., Cássio A. Tormena, Gérson R. dos Santos, Lincoln Zotarelli, Raphael B. A. Fernandes, and Teógenes S. de Oliveira. "Soil Penetration Resistance Influenced by Eucalypt Straw Management under Mechanized Harvesting." Agronomy 12, no. 6 (June 20, 2022): 1482. http://dx.doi.org/10.3390/agronomy12061482.

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This study aimed to evaluate the impacts of mechanized harvesting and soil tillage on soil penetration resistance (PR), influenced by the eucalypt straw management under sandy clay Oxisol in Southern Brazil. The study was conducted in a eucalyptus production area under Oxisol in Paraná State, Brazil. The treatments consisted of two harvesting systems: harvester + forwarder (HF) and feller + skidder (FS) both applied in areas under coppicing and stand renewal eucalypt cultivation systems. For stand renewal areas, eucalypt straw was managed on the soil surface at levels of 100, 50, and 0% before soil tillage. PR and soil moisture measurements were made in points distributed in regular grid for all treatments. This grid also was used to evaluate the geospatial behavior of PR in the stand renewal areas. During the measuring of PR, the averages (± confidence interval) of soil moisture up to 0–0.60 m depth were 0.20 ± 0.01 and 0.24 ± 0.01 in coppicing and stand renewal areas, respectively. In areas under coppicing, the PR mean ± confidence interval at 0–0.05 m layer in HF (1.28 ± 0.24 MPa) was lower than in FS treatment (2.11 ± 0.44 MPa). However, the PR values were similar between treatments in stand renewal areas, regardless of the forest straw level on the soil surface. For both harvesting systems, there was a lack of spatial dependence of PR up to 0.40 m soil depth, indicating some physical and mechanical homogenization induced by the soil tillage in the layer. Eucalypt straw contributed to mitigating effects of harvest traffic on PR level in coppicing forest systems. However, different levels of eucalypt straw managed before soil tillage did not influence PR levels in stand renewal forest systems.
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Nyamadzawo, G., P. Nyamugafata, M. Wuta, and J. Nyamangara. "Maize yields under coppicing and non coppicing fallows in a fallow–maize rotation system in central Zimbabwe." Agroforestry Systems 84, no. 2 (November 13, 2011): 273–86. http://dx.doi.org/10.1007/s10457-011-9453-9.

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Mountain, Julie. "The plants in my street." Nursery World 2023, no. 2 (February 2, 2023): 26–27. http://dx.doi.org/10.12968/nuwa.2023.2.26.

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Venanzi, Rachele, Rodolfo Picchio, Raffaele Spinelli, and Stefano Grigolato. "Soil Disturbance and Recovery after Coppicing a Mediterranean Oak Stand: The Effects of Silviculture and Technology." Sustainability 12, no. 10 (May 15, 2020): 4074. http://dx.doi.org/10.3390/su12104074.

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Traditional coppice management system is one of the most debated topics in the Mediterranean area, as it is a forest management system that accounts for over 23 million hectares. Coppicing is considered the oldest form of sustainable forest management. Its past and current widespread popularity is mainly due to its capacity to positively contribute to the rural economy and ecosystem services. This research aimed at assessing the effect of coppicing on soil characteristics, understanding a possible treatment return time, and evaluating the implementation of proper sustainable forest operations (SFOs) in order to have a better understanding of the disturbance caused by silvicultural treatment and forest operations with two different harvesting techniques. The results demonstrated that physical, chemical, and biological soil features were partially disturbed by the coppicing. Both silvicultural treatment and forest operations influenced soil disturbance. The least impactful technique was extraction by winch, while forwarding resulted in heavier alterations of soil characteristics. It took about five years for the soil to recover its original pre-harvest conditions when the disturbance was caused by the silvicultural treatment alone (non-trafficked areas) and about eight to nine years when the disturbance was the cumulated effect of silvicultural treatment and logging activity (trafficked areas).
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Dissertations / Theses on the topic "Coppicing"

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McIlveen-Wright, David. "Electricity generation from wood." Thesis, University of Ulster, 1995. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.241990.

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Brooks, Kevin M. Keever Gary Jean. "Accelerated production of tree-form Crapemyrtle." Auburn, Ala., 2006. http://repo.lib.auburn.edu/EtdRoot/2006/SPRING/Horticulture/Thesis/BROOKS_KEVIN_26.pdf.

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Slotte, Håkan. "Lövtäkt i Sverige och på Åland : metoder och påverkan på landskapet /." Uppsala : Swedish Univ. of Agricultural Sciences (Sveriges lantbruksuniv.), 2000. http://epsilon.slu.se/avh/2000/91-576-5782-3.pdf.

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Bartlett, Deborah Mary Frances. "The history of coppicing in south east England in the modern period with special reference to the chestnut industry of Kent and Sussex." Thesis, University of Greenwich, 2011. http://gala.gre.ac.uk/9085/.

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This thesis focuses on coppice woodland management in South East England, the region with the greatest concentration of woodland in the UK, with Kent the county with the highest proportion of ancient semi-natural broadleaved woodland. The woodland management practice of coppicing has declined, particularly since the Second World War, generally attributed to loss of markets for products fashioned from small diameter roundwood. This thesis begins by asking questions about the decline in the coppice industry particularly the extent of the decline and the significance this has for ecology and landscape, as well for the livelihoods of both woodland owners and the workforce. This is set in context by a review of the historical background, focusing on the modern period, the previous research into the industry, and the changes in policy that have taken place over the last fifty years. The evidence for the decline and the attempts that have been made to address it are evaluated. A series of investigations have been undertaken, including interviews, questionnaires and focus groups. These provide evidence that coppicing is still taking place over a wide area, and that there is a strong demand for products, both here and abroad, particularly for chestnut fencing. Claims by earlier researchers that the workforce is diminishing, with the majority nearing retirement, are refuted. Profiling the workforce has revealed the existence of separate groups, with distinct characteristics. These do not operate in the same way, indicating that considering the industry as a single entity is no longer valid. The importance of the chestnut workers, with a craft tradition handed down through the generations should be acknowledged. The current political context highlights the importance of involving all stakeholders in decision making. Recommendations are made for further research to incorporate this and so enable more successful development of the coppice industry in the future, whether this is for environmental, economic or social reasons.
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Wildy, Daniel Thomas. "Growing mallee eucalypts as short-rotation tree crops in the semi-arid wheatbelt of Western Australia." University of Western Australia. School of Plant Biology, 2004. http://theses.library.uwa.edu.au/adt-WU2004.0031.

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[Truncated abstract] Insufficient water use by annual crop and pasture species leading to costly rises in saline watertables has prompted research into potentially profitable deep-rooted perennial species in the Western Australian wheatbelt. Native mallee eucalypts are currently being developed as a short-rotation coppice crop for production of leaf oils, activated carbon and bio-electricity for low rainfall areas (300—450 mm) too dry for many of the traditional timber and forage species. The research in this study was aimed at developing a knowledge base necessary to grow and manage coppiced mallee eucalypts for both high productivity and salinity control. This firstly necessitated identification of suitable species, climatic and site requirements favourable to rapid growth, and understanding of factors likely to affect yield of the desirable leaf oil constituent, 1,8-cineole. This was undertaken using nine mallee taxa at twelve sites with two harvest regimes. E. kochii subsp. plenissima emerged as showing promise in the central and northern wheatbelt, particularly at a deep acid sand site (Gn 2.61; Northcote, 1979), so further studies focussed on physiology of its resprouting, water use and water-use efficiency at a similar site near Kalannie. Young E. kochii trees were well equipped with large numbers of meristematic foci and adequate root starch reserves to endure repeated shoot removal. The cutting season and interval between cuts were then demonstrated to have a strong influence on productivity, since first-year coppice growth was slow and root systems appeared to cease in secondary growth during the first 1.5—2.5 years after cutting. After decapitation, trees altered their physiology to promote rapid replacement of shoots. Compared to uncut trees, leaves of coppices were formed with a low carbon content per unit area, and showed high stomatal conductance accompanied by high leaf photosynthetic rates. Whole-plant water use efficiency of coppiced trees was unusually high due to their fast relative growth rates associated with preferential investments of photosynthates into regenerating canopies rather than roots. Despite relatively small leaf areas on coppice shoots over the two years following decapitation, high leaf transpiration rates resulted in coppices using water at rates far in excess of that falling as rain on the tree belt area. Water budgets showed that 20 % of the study paddock would have been needed as 0—2 year coppices in 5 m wide twin-row belts in order to maintain hydrological balance over the study period. Maximum water use occurred where uncut trees were accessing a fresh perched aquifer, but where this was not present water budgets still showed transpiration of uncut trees occurring at rates equivalent to 3—4 times rainfall incident on the tree belt canopy. In this scenario, only 10 % of the paddock surface would have been required under 5 m wide tree belts to restore hydrological balance, but competition losses in adjacent pasture would have been greater
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Moyo, Hloniphani. "The coppicing of a savanna tree species (Terminalia sericea) in relation to resource manipulation and disturbance." Thesis, 2014.

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The growth and recovery of trees from disturbances such as fire and browsing is driven by the intensity of the disturbances and the availability of resources. In savannas, resprouting has become recognized as a key functional trait in plant ecology over the past decade. Although this may indeed be the case, there is still limited information about the physiology and growth strategies of resprouting trees. Available information about the influence of disturbance comes from ecosystems that are in many ways different from tropical and sub-tropical savannas. Therefore it is important to know and understand post-disturbance tree responses and limitations so as to establish sustainable use and management practices. This thesis reports the findings of a study, conducted in the Mpumalanga province of South Africa, aimed at achieving a better understanding of the influences of resource availability (water and nutrients) and disturbances (herbivory and repeated cutting) on the coppicing of a widely distributed savanna tree species that is both ecologically and economically important; Terminalia sericea. To investigate the effects of resource availability, cut trees were exposed to different levels of water and nutrient (nitrogen and phosphorus) supplementation over a period of two years in a factorial experimental design. A number of coppice regrowth variables (e.g. shoot production, resprout shoot diameter and shoot length) were measured monthly, while the phenological responses (e.g. timing of leaf discolouration and fruit presence) were monitored every two weeks. The effects of disturbances were investigated in two separate experiments, in which cut trees were exposed to a five month browsing period and different cutting frequencies, respectively. Coppice regrowth variables were monitored for 12 months in trees exposed to browsing and for five months in trees exposed to different cutting frequencies. The effect of multiple cutting cycles on total non-structural carbohydrates and leaf chemistry (carbon, nitrogen and phosphorus) was measured. There was evidence of self-thinning of coppice shoots within cut trees in all experiments in the second year of growth, with supplemented trees also recording lower shoot numbers. With shoot production higher in trees that received no resource addition, water and nutrients interacted synergistically, doubling shoot diameter and shoot length for supplemented trees after 12-months of addition. The majority of the phenophases monitored peaked in the wet growing season. Supplemented trees changed colour from the typical green to senescent yellow later in the growing season than unsupplemented trees. Fruit presence occurred in the second year after cutting for supplemented trees. Shoot length and shoot diameter for unbrowsed trees were twice those for browsed trees, with leaf nitrogen and phosphorus content significantly higher for browsed trees compared to unbrowsed trees. Trees subjected to multiple cutting cycles recorded half the TNC levels, and half the resprout shoot diameter and shoot length of trees cut only once. Results from this study demonstrate that self-thinning (i.e., negative change in shoot number) is not primarily under resource control. By contrast, the findings suggest that shoot growth characteristics, the timing and duration of phenological stages in coppicing trees are resource-limited in savannas. Browsing induces an initial compensatory response through higher shoot production in browsed trees and should be kept minimal because, in the long run, browsed cut trees would take longer to recover lost biomass compared to unbrowsed cut trees. Repeated cutting significantly depleted non-structural carbohydrate reserves in stems, implying that repeatedly cut trees rely heavily on non-structural carbohydrate reserves for regrowth. The significantly lower shoot diameter and shoot length in repeatedly cut trees imply that the coppicing ability of a tree reduces as the cutting frequencies increase. Such information can be vital in establishing the competitive growth ability of T. sericea in a multiple-species ecosystem affected by changes in resource availability as well as natural disturbances. With reference to multiple cut trees, a form of cutting or harvesting strategy should be in place that allows for sustainable regeneration of the study species. A threshold in terms of number of cutting cycles a tree can tolerate based on either maximum or minimum levels of reserve carbohydrates should also be established, as this has a direct effect on the coppice growth and survival.
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SALBITANO, FABIO. "Meccanismi di occupazione dello spazio da parte di semenzali e polloni dopo la ceduazione nella macchia mediterranea." Doctoral thesis, 1992. http://hdl.handle.net/2158/606202.

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ZÁVITKOVSKÁ, Lenka. "Stanovištní vazba nočních motýlů (Lepidoptera: Macrolepidoptera) ve stanovištně pestré přírodní rezervaci (NPR Koda, Český kras)." Master's thesis, 2011. http://www.nusl.cz/ntk/nusl-85081.

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Based on light trapping carried out in 2010, I studied moth communities of the Koda National nature reserve, part of Český kras landscape protected area, in order to compare moth communities inhabiting major biotope types within the reserve. The obtained material consisted of 295 species in 4455 individuals. Steppe enclaves hosted more species than overgrown coppices and beech-dominated high forests. Ordination analyses distinguished between steppe and forest biotopes. Steppe catches differed from forest catches in habitat associations of constituent species (more species of grassland habitats), whereas the two forest types did not differ in this. Identical patterns applied for all moths analysed together and for analyses restricted to Geometridae and Noctuidae moths. Steppic enclaves represent the most valuable sites within the Koda reserve.
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Kopecký, Martin. "Vegetační změny českých nížinných lesů během posledních desetiletí." Doctoral thesis, 2015. http://www.nusl.cz/ntk/nusl-351674.

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Vegetation changes in Czech lowland forests over the past decades Martin Kopecký ABSTRACT To explore decadal changes in plant species diversity and composition of typical lowland forests in the Czech Republic, I compared vegetation on plots sampled decades ago with vegetation on the same plots sampled recently. First I evaluated the robustness of the approach used in my thesis. In Chapter 1, we provided the first direct test of the effect of uncertainty in original plot location on results from vegetation resurvey. We found that temporal trends in vegetation diversity and composition were comparable between exactly relocated permanent and only approximately relocated semi-permanent plots. Therefore, we conclude that the resurvey of semi-permanent plots is robust to the uncertainty in original plot location. Then, we showed that vegetation in lowland oak forest shifted from species-rich communities of thermophilous forest toward species poorer communities of mesic forest (Chapter 2). The species typical for thermophilous oak forests and nationally endangered species suffered the most significant decline. We identified as the main driver behind these changes shift from traditional coppicing toward high forest management after WWII. Further, we explored the processes behind temporal shifts in species diversity...
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Books on the topic "Coppicing"

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Edward, Mills, ed. Coppicing & coppice crafts: A comprehensive guide. Ramsbury: Crowood, 2010.

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Holdgate, Ross. The effects of coppicing on hazel invertebrate communities. London: University of Surrey Roehampton, 2000.

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Jukka, Ojala, and Bura Fuelwood Project. Research Component., eds. Effect of number of coppice stems on yield of Prosopis juliflora (baobab variety) in Bura, Tana River District, Kenya. Nairobi, Kenya: Kenya Forestry Research Institute, 1992.

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Håkan, Slotte, and Göransson Hans 1927-, eds. Lövtäkt och stubbskottsbruk: Människans förändring av landskapet : boskapsskötsel och åkerbruk med hjälp av skog. Stockholm: Kungl. Skogs- och lantsbruksakademien, 1996.

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A Guide To Coppicing. Eco-Logic Books / Worldly Goods, 2013.

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Coppicing and Coppice Crafts: A Comprehensive Guide. The Crowood Press, 2023.

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Coppicing and Coppice Crafts: A Comprehensive Guide. The Crowood Press, 2012.

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Shepperd, W. D. Response of aspen root suckers to regeneration methods and post-harvest protection. 1996.

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Book chapters on the topic "Coppicing"

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Warren, M. S., and J. A. Thomas. "Butterfly responses to coppicing." In Ecology and Management of Coppice Woodlands, 249–70. Dordrecht: Springer Netherlands, 1992. http://dx.doi.org/10.1007/978-94-011-2362-4_13.

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Goldsmith, F. B. "Coppicing — a conservation panacea?" In Ecology and Management of Coppice Woodlands, 306–12. Dordrecht: Springer Netherlands, 1992. http://dx.doi.org/10.1007/978-94-011-2362-4_16.

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Booker, John, and Ruth Tittensor. "Coppicing for nature conservation — the practical reality." In Ecology and Management of Coppice Woodlands, 299–305. Dordrecht: Springer Netherlands, 1992. http://dx.doi.org/10.1007/978-94-011-2362-4_15.

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Evans, Martin N., and John P. Barkham. "Coppicing and natural disturbance in temperate woodlands — a review." In Ecology and Management of Coppice Woodlands, 79–98. Dordrecht: Springer Netherlands, 1992. http://dx.doi.org/10.1007/978-94-011-2362-4_5.

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Kirby, K. J. "Accumulation of dead wood — a missing ingredient in coppicing?" In Ecology and Management of Coppice Woodlands, 99–112. Dordrecht: Springer Netherlands, 1992. http://dx.doi.org/10.1007/978-94-011-2362-4_6.

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Giovannini, G., D. Perulli, P. Piussi, and F. Salbitano. "Ecology of vegetative regeneration after coppicing in macchia stands in central Italy." In Quercus ilex L. ecosystems: function, dynamics and management, 331–43. Dordrecht: Springer Netherlands, 1992. http://dx.doi.org/10.1007/978-94-017-2836-2_35.

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Bello, Olunike Adedoyin. "Coppicing Capacity of Pycnanthus angolensis for Sustainable Forestry Techniques in the Climate Change." In Springer Climate, 179–96. Cham: Springer International Publishing, 2023. http://dx.doi.org/10.1007/978-3-031-21007-5_10.

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Barkham, J. P. "The effects of coppicing and neglect on the performance of the perennial ground flora." In Ecology and Management of Coppice Woodlands, 115–46. Dordrecht: Springer Netherlands, 1992. http://dx.doi.org/10.1007/978-94-011-2362-4_7.

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Kiwia, Abednego, Moses Imo, Bashir Jama, and John R. Okalebo. "Coppicing improved fallows are profitable for maize production in striga infested soils of western Kenya." In Agroforestry for Commodity Production: Ecological and Social Dimensions, 191–201. Dordrecht: Springer Netherlands, 2009. http://dx.doi.org/10.1007/978-90-481-3365-9_16.

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Salbitano, Fabio, and Marco Ugolini. "Growth Pattern and Architecture in Quercus Ilex L. and Fraxinus Ornus L. Vegetative Regeneration After Coppicing in Maremma Nature Park (Central Italy)." In Responses of Forest Ecosystems to Environmental Changes, 993–94. Dordrecht: Springer Netherlands, 1992. http://dx.doi.org/10.1007/978-94-011-2866-7_258.

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