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Plantations of energy plants are the alternative form of post-agricultural and degraded land management. Particularly, small-area plantations of the tree species, including the willow Salix sp., raise local natural values of degraded habitats and are a dwelling place for numerous entomofauna, birds and mammals. Herbaceous vegetation accompanying short-rotation coppice (SRC) constitutes at the beginning a competition for energy species plantings and therefore is subject to chemical and mechanical control. In successive years, it may increase local biodiversity at the level of plant species and associations, both in ruderal habitats and extensively used agricultural lands. In the presented paper, results of the study referring to evaluation of the floristic and phytosociological diversity of herbaceous vegetation accompanying selected 4-5-year-old willow short-rotation coppices (SRC) situated on lands adjacent to the Odra River estuary (Western Pomerania) in different soil-habitat conditions are showed. Investigations were carried out in willow SRCs located on degraded sandy silts and sewage sludge-fertilised silts, fallow post-farmland and degraded grassland. The largest number of species confirmed by the highest Shannon-Wiener.s diversity index (H) and species evenness index (J) was characteristic of SRCs set on sandy silt fertilised with sewage sludge, wet grassland and fallow post-farmland when compared to those on sandy silt and over-dried grassland. The analysis of vegetation showed a strong predominance of anthropogenic associations (synanthropic and seminatural) over autogenic (natural) ones.
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289--296
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Bibliogr. 22 poz.,Rys., tab.,
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autor
autor
autor
- Department of Botany and Nature Protection, West Pomeranian University of Technology, Szczecin, Słowackiego 17, 71.434 Szczecin, Poland, mariola.wrobel@zut.edu.pl
Bibliografia
- 1. Baum S., Weih M., Busch G., Kroiher F., Bolte A. 2009 – The impact of short rotation coppice plantations on phytodiversity – Landbauforschung Volk. 59: 163–170.
- 2. Bednarek R., Dziadowiec H., Pokojska U., Prusinkiewicz Z. 2004 – Badania ekologiczno gleboznawcze [Eco-pedological research] – PWN, Warszawa, 344 pp. (in Polish).
- 3. Bergkvist P., Ledin S. 1997 – Effects of the herbicides propaquizafop and primisulfuronmetyl on Salix plants and weeds in energy plantations – Biomass Bioenergy, 12: 25–33.
- 4. Dimitriou I., Aronsson P. 2005 – Willows for energy and phytoremediation in Sweden – Unasylva, 56: 47–50.
- 5. Faliński J.B. 1969 – Zbiorowiska autogeniczne i antropogeniczne. Próba określenia i klasyfikacji. Dyskusje fitosocjologiczne (4) [Groupements autogènes et anthropogenès. Ềpreuve de la definition et de la classification. Discussions phytosociologiques (4)] – Ekol. pol. Ser. B, 15: 173–182.
- 6. Jongman R.H.G., ter Braak C.J.F., van Tongeren O.F.R. 1987 – Data analysis in community and landscape ecology – Pudoc, Wageningen, 289 pp.
- 7. Kabba B.S., Knight J.D., Van Rees K.C.J. 2007 – Growth of hybrid poplar as affected by dandelion and quackgrass competition – Plant Soil, 298: 2003–217.
- 8. Korniak T. 2007 – Zachwaszczenie upraw wierzby w północno-wschodniej części Polski [Weed infestation of willow coppice plantations in north-eastern Poland] – Pam. Puł. 145: 141–149 (in Polish with English summary).
- 9. Labrescque M., Teodorescu T.I., Daigle S. 1997 – Biomass productivity and wood energy of Salix species after two years growth in SRCI fertilized with wastewater sludge – Biomass Bioenergy, 12: 409–417.
- 10. Matuszkiewicz W. 2004 – Przewodnik do oznaczania zbiorowisk roślinnych Polski [Guide to the plant communities of Poland] – Ser. Vademecum Geobotanicum 3 – PWN, Warszawa, 536 pp. (in Polish).
- 11. Mirek Z., Piękoś-Mirkowa H., Zając A., Zając M. 2002 – Flowering plants and pteridophytes of Poland. A checklist – W. Szafer Institute of Botany, Polish Academy of Sciences, Kraków, pp. 11–442.
- 12. Piernik A., 2008 – Metody numeryczne w ekologii na przykładzie zastosowań pakietu MVSP do analiz roślinności [Numerical methods in ecology for example of MVSP package application to analysis of vegetation] – Scientific Publishers of Nicolaus Copernicus University in Toruń, Toruń, 92 pp. (in Polish).
- 13. Pulford I.D., Riddell-Black D., Stewart C. 2002 – Heavy metal uptake by willow clones from sewage sludge-treated soil: The potential for phytoremediation – Int. J. Phytorem. 4: 59–72.
- 14. Reddersen J. 2001 – SCR-willow (Salix viminalis) as a resource for flower-visiting insects – Biomass Bioenergy, 20: 171–179.
- 15. Sage R.B. 1999 – Weed competition in willow coppice crops: the cause and extend of yield losses – Weed Res. 39: 399–411.
- 16. Sage R., Cunningham M., Boatman N. 2006 – Birds in willow short rotation-coppice compared to other arable crops in central England and a review of bird census data from energy crops in the UK – Ibis, 148: 184–197.
- 17. Scholz V., Ellerbrock R. 2002 – The growth productivity and environmental impact of the cultivation of energy crops on sandy soil in Germany – Biomass Bioenergy, 23: 81–92.
- 18. Schultz U., Brauner O., Gruß H. 2009 – Animal diversity on short-rotation coppice. A review – Landbauforschung Volk. 59: 171–182.
- 19. Szczukowski S., Stolarski M., Tworkowski J., Przyborowski J., Klasa A. 2005 – Productivity of willow coppice plants grown in short rotations – Plant Soil Environ. 51: 423–430.
- 20. van der Maarel E. 1979 – Transformation of cover-abundance values in phytosociology and its effect on community similarity – Vegetatio, 39: 97–114.
- 21. Walle I.V., Van Camp N., Van de Casteele L., Verheyen K., Lemeur R. 2007 – Short-rotation forestry of birch, maple, poplar and willow in Flanders (Belgium) I – Biomass production after 4 years of tree growth – Biomass Bioenergy, 31: 267–275.
- 22. Weih M., Karacic A., Munkert H., Verwijst T., Diekmann M. 2003 – Influence of young poplar stands on floristic diversity in agricultural landscapes (Sweden) – Basic Appl. Ecol. 4: 149–156.
Typ dokumentu
Bibliografia
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bwmeta1.element.baztech-article-BGPK-3222-2508