Species richness, biomass production and recent vegetation changes of Estonian floodplain grasslands

Truus, L.; Puusild, E.

Artykuł - szczegóły

Tytuł artykułu

Species richness, biomass production and recent vegetation changes of Estonian floodplain grasslands

Autorzy

Truus L. , Puusild E.

Wybrane pełne teksty z tego czasopisma

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

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Warianty tytułu

Języki publikacji

Abstrakty

We studied vegetation diversity and standing biomass in relation to site moisture (moist, wet) and different management regimes (regularly mown (A), recently abandoned (B), un-mown for at least 15 years but with mowing re-introduced recently (C), and abandoned for at least 15 years without re-introduction of mowing (D)) on floodplain grasslands in Soomaa National Park, SW Estonia. A flexible quadrate size (area inhabited by 500 ramets) was used for the estimation of life-form distribution, species richness, ramet density and weight of standing biomass. The size of the actual species pool (S[pool]) was also estimated and relative richness (S[rel500]), mean plant unit area (PUA), plant unit biomass (PUB), ramet density per square metre and standing dry biomass per square metre were calculated. Additionally, changes in Estonian floodplain grassland vegetation between the 1960s and the 1990s were analysed by comparing the life-form distribution of frequent species on floodplain grasslands in the 1960s and 1990s. Life-form distribution depended both on moisture conditions and on the management regime. Tussock-forming graminoids dominated in regularly mown moist sites and long-term un-mown wet sites, while mat-forming graminoids dominated in sites with irregular management. The proportion of herb ramets was highest in unmanaged moist sites without regular mowing. In general, the life-form composition of floodplain grassland flora has shifted from low-growing herbaceous plants to tall-growing herbaceous plants during the abandonment period (from 1960s to 1990s). The effect of site moisture on the standing biomass-species richness relation and PUA was not significant, but the effect of the management regime was notable. PUA varied tenfold (mean 2.6 cm[^2] at moist sites with the management regime B but was 25.2 cm[^2] at un-managed wet sites). Dry standing biomass varied threefold depending on the management regime (from 263 to 763 g m[^-2]). Ramet density, PUA, PUB, S[pool], and life-form distribution on plots with recently re-introduced mowing (regime C) differed significantly from those of plots with regime D but did not differ from regularly mown plots (regime A). Management cessation led to a change in life-form distribution. Dominance of certain lifeforms depended on site moisture but the most obvious change was the increase of vegetation height.

Słowa kluczowe

biomass-species richness relation hydrology life-forms management relation restoration scale-independent quadrate size

forma życiowa gatunek biomasy hydrologia konserwacja zarządzanie relacjami

Wydawca

Museum and Institute of Zoology, Polish Academy of Sciences

Czasopismo

Polish Journal of Ecology

Rocznik

2009

Tom

Vol. 57, nr 1

Strony

33--45

Opis fizyczny

Bibliogr. 34 poz.,Tab., wykr.,

Twórcy

autor

Truus L.

autor

Puusild E.

Institute of Ecology at Tallinn University, Uus-Sadama 5, 10120 Tallinn, Estonia, laimdota.truus@tlu.ee

Bibliografia

1. Al-Mufti M.M., Sydes C.L., Grime J.P., Band S.R. 1977 – A quantitative analysis of shoot phenology and dominance in herbaceous vegetation – J. Ecol. 65: 759–791.
2. Cornwell W.K., Grubb P.J. 2003 – Regional and local patterns in plant species richness with respect to resource availability – Oikos, 100: 417–428.
3. Day R., Keddy P.A., McNeill J. 1988 – Fertility and disturbance gradients: A summary model for riverine marsh vegetation – Ecology, 69: 1044–1054.
4. Ellenberg H., Weber H.E., Düll R., Wirth V., Werner W., Pauliss en D. 1991 – Zeigerwerte von Pflanzen in Mitteleuropa – Scr. Geobot. 18: 1–248.
5. Falinska K. 1991 – Plant demography in vegetation succession – Kluver Academic Publishers, Dordrecht, Boston, London, 210 pp.
6. Falinska K. 1995 – Genet disintegration in Filipendula ulmaria: consequences for population dynamics and vegetation succession – J. Ecol. 83: 9–21.
7. Falinska K. 1999 – Mosaic pattern of vegetation and pattern of seed bank on meadows abandoned of 20 years – Phytocoenosis, 11: 199–211.
8. Grace J. 1999 – The factors controlling species density in herbaceous plant communities: an assessment – Perspect. Plant Ecol. Evol. Systemat. 2/1: 1–28.
9. Grassle J.F., Maciolek N.J. 1992 – Deep-sea species richness: regional and local diversity estimates from quantitative bottom samples – Am. Nat., 139: 313–341.
10. Grime J.P. 1973 – Competitive exclusion in herbaceous vegetation – Nature, 242: 344–347.
11. Grime J.P. 1979 – Plant strategies and vegetation processes – Wiley, London, 222 pp.
12. Jensen K., Schrautzer J. 1999 – Consequences of abandonment for a regional fen flora and mechanisms of successional change – Appl. Veg. Sci. 2: 79–88.
13. Jensen, K., Gutekunst K. 2003 – Effects of litter on establishment of grassland plant species: the role of seed size and successional status – Basic Appl. Ecol. 4: 579–587.
14. Jensen K., Meyer C. 2001 – Effects of light competition and litter on the performance of Viola palustris and on species composition and diversity of an abandoned fen meadow – Plant Ecol. 155: 169–181.
15. Krall H., Pork K., Rebassoo H.-E. 1973 – The flora of Estonian meadows (In: Floristic notes 1.5, Ed. H. Trass) – Academy of Sciences of the Estonian SSR, Estonian Naturalist’s Society, Tallinn, pp. 315–337.
16. Leht M. (Ed.) 1999 – Eesti taimede määraja [Key-book of Estonian plants] – EPMÜ ZBI, Eesti Loodusfoto, Tartu, 447 pp.
17. Lotman A. 1997 – Poollooduslike koosluste hooldusest Matsalu märgalal [Management of seminatural communities on Matsalu wetland] – Loodusevaatlusi, 95/96: 132–145.
18. Moore D.R.J., Keddy P.A. 1989 – The relationship between species richness and standing crop in wetlands: the importance of scale – Vegetatio, 79: 99–106.
19. Mägi M., Lutsar L. 2001 – Final Report on Inventory of Seminatural Grasslands in Estonia 1999–2000 – Estonian Fund for Nature and Royal Dutch Society for Nature Conservation; (unpublished)
20. Paal J. 1997 – Classification of Estonian vegetation site types – Eesti Keskkonnaministeerium, ÜRO Keskkonnaprogramm, Tallinn, 297 pp. [in Estonian with English summaries]
21. Paal J., Ilomets M., Fremstad E., Moen A., Børset E., Kuusemets V., Truus L., Leibak E. 1998 – Estonian wetlands inventory 1997 – Publication of the project “Estonian wetlands conservation and management” – Eesti Loodusfoto, Tartu, 166 pp. + xxviii p.
22. Pärtel M., Zobel M., Zobel K., van der Maarel E. 1996 – The species pool and its relation to species richness – evidence from Estonian plant communities – Oikos, 75: 111–117.
23. Philips O.L., Hall P., Gentry A.H., Sawyer S.A., Vásquez R. 1994 – Dynamics and species richness of tropical rain forests – Proc. Nat. Acad. Sci. U.S.A., 91: 2805–2809.
24. Pork K. 1964 – Taimkatte genees ja antropogeensed suktsessioonid luhtadel [Genesis of vegetation and anthropogenic successions on floodplains] – ELUS-i Aastaraamat, 56: 97–110.
25. Pork K. 1981 – Anthropogenous dynamics of meadows in recent decades, protection of meadow communities (In: Anthropogenous changes in the plant cover of Estonia, Ed. L. Laasimer) – Tartu, pp. 46–63.
26. Prach K. 1992 – Vegetation, microtopography and water table in the Lužnice River floodplain, South Bohemia, Czechoslovakia – Preslia, 64: 357–367.
27. Suurkask M. 1999 – Soomaa rahvuspargi luhtade bioloogiline mitmekesisus ja majandamine [Biodiversity and management of the floodplain grasslands in the Soomaa National Park] – Report of the project 124/009-0041. (unpublished)
28. Tilman D., Pacala S. 1993 – The maintenance of species richness in plant communities. (In: Species diversity in ecological communities, Eds. R.E. Ricklefs, D. Schulter) – University of Chicago Press, pp. 13–25.
29. Touzard B., Clément B., Lavorel S. 2002 – Successional patterns in an eutrophic alluvial wetland of western France – Wetlands, 22: 111–125.
30. Truus L. 1998 – Influence of management cessation on reedbed and floodplain vegetation in the delta of the Kasari river, Estonia – Proc. Estonian Acad. Sci. Biol. Ecol. 47: 58–72.
31. Truus L., Tõnisson A. 1998 – The ecology of floodplain grasslands in Estonia. (In: European Wet Grasslands: Biodiversity, Management and Restoration, Eds. C.B. Joyce, Wade P.M.) – Wiley, Chichester, pp. 49–60.
32. Wagner M., Poschlod P., Setchfield R.P. 2003 – Soil seed bank in managed and abandoned semi-natural meadows in Soomaa National park, Estonia – Ann. Bot. Fenn. 40: 87–100.
33. Wheeler B.D., Shaw S.C. 1991 – Aboveground crop mass and species richness of the principal types of herbaceous rich-fen vegetation in lowland England and Wales – J. Ecol. 70: 179–200.
34. Zobel K., Liira J. 1997 – A scale-independent approach to the richness vs biomass relationship in ground-layer communities – Oikos, 80: 325–332.

Typ dokumentu

Bibliografia

Identyfikator YADDA

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