Influence of agricultural landscape structure on diversity of insect communities

Ryszkowski, L.; Karg, J.; Glura, M.

Artykuł - szczegóły

Tytuł artykułu

Influence of agricultural landscape structure on diversity of insect communities

Autorzy

Ryszkowski L. , Karg J. , Glura M.

Wybrane pełne teksty z tego czasopisma

http://www.miiz.waw.pl/index.php/pl/wydawnictwa/polish-journal-of-ecology

Identyfikatory

Warianty tytułu

Języki publikacji

Abstrakty

Environmental effects of the intensification of agricultural production have a profound impact on the ecological carrying capacity of agricultural landscapes for biodiversity. The recent view of the relationship between biodiversity and landscape structural characteristics showed the importance of the vegetation patch composition, heterogeneity and fragmentation of the habitats, their connectivity and scale dimension for biodiversity protection. There are two kinds of habitat/vegetation diversity in the agricultural landscape: crop fields which form a sort of matrix and the network of semi-natural or perennial patches of vegetation like shelterbelts, small patches of forests, meadows or wetlands. The studies were carried in mosaic and uniform agricultural landscape in west Poland. In the mosaic landscape, small areas of arable fields are presented as well as numerous semi-natural ecosystems being refuges for plants and animals (shelterbelts, small water bodies, strips of meadows, channels etc.). In the uniform landscape, large areas of arable fields and small number of refugial ecosystems are presented. The importance of these two kinds of landscape diversity for the family diversity of aboveground insect communities was studied in the agricultural landscape (Turew area) in Poznan region of Western Poland. The landscape is composed of the large (up to 100 ha area) fields (wheat and corn mostly) and a network of shelterbelts (black locust, oak) planted in the past (XIX century) as well as recently (with more than 10 species of trees). The studies were carried up from 1984 to 2005 in the different vegetation patches, wheat fields and shelterbelts, as well as at different distances from the shelterbelts. Quick-trap method, with a base area of 0.25 m2 was used to collect the above-ground insects. 10.20 samples were taken in each series. 133 families were recorded in the 1994.2005 period. The number of recorded families decreased with increasing distance from shelterbelt. This decrease is well described by negative exponential equation with fit measured by determination coefficient R[^2] = 0.97. The mean number of families found in wheat field at the 100 m distance shelterbelt was equal to 52.0 and was higher than their number recorded in wheat fields of the uniform landscape which amounted to 40.9. Groups of occasionally occurring and residential families were also studied. In the mosaic landscape the share of occasionally occurring families in total number of recorded families was equal to 0.29 (36 vs 124). In the uniform landscape, contribution of occasionally occurring families was 0.37 (43 vs 115). The landscape structure had negligible effects on occasionally appearing insects, which can be distributed by wind as well as by other factors, or are on a long-distance migration. The main factors counteracting the decline of biodiversity in agroecosystems are the mosaic structure of the landscape and dispersal properties of insects. Refuges occurring in mosaic landscape counterbalance the loss of insect diversity due to intensification of agriculture production. The influence of landscape structure on recurrence of insect families in consecutive years is so strong that combined changes of climate and crop pattern do not seem to have the significant effect.

Słowa kluczowe

biodiversity insects landscape

kraina geograficzna owady różnorodność biologiczna

Wydawca

Museum and Institute of Zoology, Polish Academy of Sciences

Czasopismo

Polish Journal of Ecology

Rocznik

2009

Tom

Vol. 57, nr 4

Strony

697--713

Opis fizyczny

Bibliogr. 39 poz.,

Twórcy

autor

Ryszkowski L.

autor

Karg J.

autor

Glura M.

Research Center for Agricultural and Forest Environment of the Polish Academy of Sciences, Bukowska 19, 60-809 Poznań, Poland, ryszagro@man.poznan.pl

Bibliografia

1. Baldock D., Beaufoy G., Bennett G., Clark J. 1993 – Nature conservation and new directions in the EC common agricultural policy – Institute for European Environmental Policy, London, 224 pp.
2. Bernacki Z. 2004 – Secondary succession of the vegetation in the young shelterbelt (Turew area, Western Poland) – Pol. J. Ecol. 52: 391–404.
3. Bourdeau P. 2001 – Biodiversity (In: Our fragile world, Ed: M.K. Tolba) – EOLSS Publishers - Oxford, pp. 299–308.
4. Brown L.R. 2001 – Eco-economy – Norton and Company, New York, 333 pp.
5. Collins W.W., Qualset C.D. 1999 – Biodiversity in agroecosystems – CRC Press, Boca Raton, 334 pp.
6. COM 1999, 22 final, 1999 – Direction towards sustainable agriculture – Commission of the European Communities, Brussels, 30 pp.
7. GUS 2004 – Statistical yearbook of the Republic of Poland – Statistical Publishing Establishment, Warsaw, 876 pp.
8. Hudson R.J. 2001 – Management of agricultural systems (In: Our fragile world, Ed: M.K. Tolba) – EOLSS Publishers, Oxford, pp. 617–627.
9. Kajak A., Karg J., Ryszkowski L. 2003 – Impact of midfield shelterbelts on agricultural landscape: soil processes and liter decomposition – Pol. J. Ecol. 51: 269–322.
10. Karg J. 2004 – Importance of midfield shelterbelts for over-wintering entomofauna (Turew area, West Poland) – Pol. J. Ecol. 52: 421–431.
11. Karg J., Ryszkowski L., 1996 – Animals in arable land (In: Dynamics of an agricultural landscape, Eds: L. Ryszkowski, N. French, A. Kędziora) – PWRiL, Poznań, pp. 138–172.
12. Kożuchowski K., Degirmendžić J. 2005 – Contemporary changes of climate in Poland: trends and variation in thermal and solar conditions related to plant vegetation – Pol. J. Ecol. 53: 283–297.
13. Krzyśko M. 1997 – Statystyka Matematyczna [Mathematical Statistics] – Wyd. Naukowe UAM, Poznań, 448 pp. (in Polish).
14. Listowski A. 1983 – Agroekologiczne podstawy uprawy roślin [Agroecological foundations of plant cultivations] – PWN, Warszawa, 320 pp. (in Polish).
15. Loreau M., Naeem S., Inchaushi P. 2002 – Biodiversity and ecosystem functioning – Oxford University Press, Oxford, 294 pp.
16. Lowrance R., Stinner B.R., House G.J. 1984 – Agricultural ecosystems – Wiley and Sons, New York, 233 pp.
17. Łęcki R. 2004 – Small mammals in two midfield shelterbelts of different age – Pol. J. Ecol. 52: 455–459.
18. Marcinek J. 1996 – Soil of the Turew region (In: Dynamics of agricultural landscape, Eds: L. Ryszkowski, N. French, A. Kędziora), PWRiL, Poznań, pp. 19–26.
19. Marshall J., Baudry J., Burel F., Joenje W., Gerowitt B., Paoletti M., Thomas G., Klein O., Le Coeur D., Moonen C., 2002 – Field boundary habitats for wildlife crop, and environment protection (In: Landscape ecology in agroecosystems management, Ed: L. Ryszkowski) – CRC Press, Boca Raton, pp. 219–247.
20. Millennium Ecosystem Assessment, 2005 – Ecosystems and human well-being (Synthesis) – Island Pres, Washington DC, 137 pp.
21. Missonnier M.J. 1976 – Les bocages, historie, ecologie, economie – CNRS, ENSA et Universite de Rennes, Rennes, 586 pp.
22. Missonnier M.J., Ryszkowski L. 1986 – Impact of structure of agricultural landscape on crop protection – INRA Publications, Rte de St-Cyr, 78000 Versailles, France, 190 pp.
23. Paoletti M.G., Pimentel D. 1992 – Biotic diversity in agroecosystems – Elsevier, Amsterdam, 356 pp.
24. Reaka-Kudla M.L., Wilson D.E., Wilson E.O. 1997 – Biodiversity – Joseph Henry Press, Washington, 551 pp.
25. Ryszkowski L. 1994 – Strategy for increasing countryside resistance to environment threats (In: Functional appraisal of agricultural landscape in Europe, Eds: L. Ryszkowski, S. Bałazy) – Research Centre for Agricultural and Forest Environment, Poznań, pp. 9–18.
26. Ryszkowski L. 2000 – The coming change in the environmental protection paradigm (In: Implementing ecological integrity, Eds: P. Crabbe, A. Holland, L. Ryszkowski, L. Westra) – Kluwer Acad. Publishers, Dordrecht, pp. 37–56.
27. Ryszkowski L. 2002 – Integrity and sustainability of natural and man-made ecosystems (In: Just ecological integrity, Eds: P. Miller, L. Westra) – Rowman and Littlefield Publishers, New York, pp. 155–166.
28. Ryszkowski L., Karg J. 1977 – Variability in biomass of epigeic insects in the agricultural landscape – Ekol. pol. 25: 501–517.
29. Ryszkowski L., Karg J., Kujawa K., Gołdyn H., Arczynska-Chudy E. 2002 – Influence of landscape mosaic structure on diversity of wild plant and animal communities in agricultural landscapes of Poland (In: Landscape ecology in agroecosystems management, Ed: L. Ryszkowski) – CRC Press, Boca Raton, pp. 185–217.
30. Smith R.D., Maltby E. 2003 – Using the ecosystem approach to implement the convention on biological diversity – IUCN – the World Conservation Union, Gland, 118 pp.
31. Sobczyk D. 2004 – Butterflies (Lepidoptera) of young midfield shelterbelts – Pol. J. Ecol. 52: 449–453.
32. Squires V. 2001 – The role of food, agriculture, forestry, and fisheries in human nutrition (In: Our fragile world, Ed: M. K. Tolba) – EOLSS Publishers, Oxford, pp. 563–577.
33. Srivastava J.P., Smith N.J., Forno D.A. 1996 – Biodiversity and agricultural intensification – The World Bank, Washington, 128 pp.
34. Sturrock J.W., Ulbricht T.L.V. 1988 – Windbreak technology – Agr. Ecos. Environ. 22/23: 1–598.
35. Swaminathan M.S. 2001 – Sustainable food and water security (In: Our fragile world, Ed: M.K. Tolba) – EOLSS Publishers, Oxford, pp. 579–597.
36. Szeflińska D. 2004 – Thysanoptera community of midfield shelterbelts of different age – Pol. J. Ecol. 52: 445–448.
37. Tischler W. 1965 – Agrarökologie – Fischer Verlag, Jena, 499 pp.
38. Waldhardt R. 2003 – Biodiversity and landscape – summary conclusions and perspectives – Agr. Ecos. Environ. 98: 305–309.
39. Wilson E.O. 1992 – The diversity of life – The Belknap Press, Cambridge, 424 pp.

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-article-BGPK-2858-1158