PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Biomass and nitrogen responses to grazing intensity in an alpine meadow on the eastern Tibetan Plateau

Autorzy
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This study was conducted to examine the seasonal dynamics of biomass and plant nitrogen (N) content under three grazing intensities (light grazing - LG: 1.2, moderate grazing - MG: 2.0, and heavy grazing - HG: 2.9 yaks ha[^-1]) in representative alpine meadow on the eastern Tibetan Plateau. Differentiation in grazing intensity in the study area started since 1997 and has continued to the present time. Plant samples were collected in the middle of June, August and September. The highest aboveground biomass occurred at the MG site for both August and September. Over the growing season, belowground biomass (0.30 cm) increased as grazing intensity increased. The total belowground biomass averaged over all sampling dates was 1226, 1908 and 2244 g m[^-2] for LG site, MG site and HG site, which accounted for 75, 81 and 88% of total biomass, respectively. The results suggested that grazing intensity changed biomass allocation pattern between aboveground and belowground parts of plants. Higher grazing intensity resulted in higher N concentration in both live and dead aboveground biomass over the study period. Increased grazing intensity tended to increase plant N content averaged over all sampling dates, which were 17.9 g m[^-2], 23.8 g m[^-2] and 27.6 g m[^-2] in LG site, MG site and HG site. The results indicated that higher grazing intensity had a potential to increase the ecosystem pool of plant N.
Rocznik
Strony
469--479
Opis fizyczny
Bibliogr. 40 poz.,Tab., wykr.,
Twórcy
autor
  • Chengdu Institute of Biology, Chinese Academy of Sciences, P. O. Box 416, Chengdu 610041, Sichuan Province, China, gaoyh@cib.ac.cn
Bibliografia
  • Agriculture Special Interest Committee of China Agriculture Association 1983 – Routine Analysis Method of Soil Agricultural Chemistry – Science Press, Beijing (in Chinese).
  • Baron V.S., Mapfumo E., Dick A.C., Naeth M.A., Oklne E.K., Chanasyk D.S. 2002 – Grazing intensity impcts on pasture carbon and nitrogen flow – J. Range. Manage. 55: 535–541.
  • Bobbink R., den Dubbelden K., Willems J.H. 1989 – Seasonal dynamics of phytomass and nutrients in chalk grassland – Oikos, 55: 216–224.
  • Chaneton E.J., Lemcoff J.H., Lavado R.S. 1996 – Nitrogen and phosphorus cycling in grazed and ungrazed plots in a tempetate subhumid grassland in Argentina – J. Appl. Ecol. 33: 291–302.
  • Chinese soil taxonomy research group 1995 – Chinese Soil Taxonomy (in Chinese).
  • Coughenour M.B. 1991 – Biomass and nitrogen responses to grazing of upland steppe on Yellowstone’s northern winter range – J. Appl. Ecol. 28: 71–82.
  • Frank D.A., McNaughton S.J. 1993 – Evidence for the promotion of aboveground grassland production by native large herbivores in Yellowstone National Park – Oecologia, 96: 157–161.
  • Frank D.A., Groffman P.M. 1998 – Ungulate versus landscape control of soil C and N processes in grasslands of Yellowstone National Park – Ecology, 79: 2229–2241.
  • Frank D.A., Kuns M.M., Guido D.R. 2002 – Consumer control of grassland plant production – Ecology, 83: 602–606.
  • Gan Y.M., Li Z.D., Ze B., Fei D.P., Luo G.R., Wang Q., Wang X.L. 1995 – The Changes of grassland soil nutrition at different degradation alpine meadow of north-west in Sichuan – Acta Prataculturae Sinica, 14: 38–42 (in Chinese with English abstract).
  • Gorissen A., Cotrufo M.F. 1999 – Elevated carbon dioxide effects on nitrogen dynamics in grasses, with emphasis on rhizosphere processes – Soil Sci. Soc. Am. J. 63: 1695–1702.
  • Hik D.S., Jefferies R.L. 1990 – Increases in the net above-ground primary production of a salt-marsh foragegrass: a test of the predictions of the herbivore-optimization model – J. Ecol. 78: 180–195.
  • Hill M.O., Evans D.F., Bell S.A. 1992 – Long-term effects of excluding sheep from hill pastures in North Wales – J. Ecol. 80: 1–13.
  • Hobbs N.T., Schimel D.S., Owensby C.E., Ojima D.S. 1991 – Fire and grazing in the tallgrass prairie: contingent effects on nitrogen budgets – Ecology, 72: 1374–1382.
  • Holland E.A., Detling J.K. 1990 – Plant response to herbivory and belowground nitrogen cycling – Ecology, 71: 1040–1049.
  • Jaramillo V.J., Detling J.K. 1992 – Smallscale heterogeneity in a semi-arid North American grassland. I. Tillering, N uptake and retranslocation in simulated urine patches – J. Appl. Ecol. 29: 1–8.
  • Kooijman A.M., Smit A. 2001 – Grazing as a measure to reduce nutrient availability and plant productibity in acid dune grasslands and pine forests in The Netherlands – Ecol. Eng. 17: 63–77.
  • Leriche H., LeRoux X., Gignoux J., Tuzet A., Fritz H., Abbadie L., Loreau M. 2001 – Which functional processes control the short term effect of grazing on net primary production in grasslands? – Oecologia, 129: 114–124.
  • McNaughton S.J., Banyikwa F.F., Mc-Naughton M.M. 1997 – Promotion of the cycling of diet-enhancing nutrients by African grazers – Science, 278: 1798–1800.
  • McNaughton S.J. 1985 – Ecology of a grazing ecosystem: the Serengeti – Ecol. Monogr. 55: 259–294.
  • McNaughton S.J. 1990 – Mineral nutrition and seasonal movement of African ungulates – Nature, 345: 613–615.
  • Milchunas D.G., Lauenroth W.K. 1993 – Quantitative effects of grazing on vegetation and soils over a range of environments – Ecol Monogr. 63: 327–366.
  • Milchunas D.G., Lauenroth W.K., Burke I.C. 1998 – Livestock grazing: animal and plant biodiversity of shortgrass steppe and the relationship to ecosystem function – Oikos, 83: 63–74.
  • Oesterheld M., McNaughton S.J. 1991– Effect of stress and time for recovery on the amount of compensatory growth after grazing – Oecologia, 85: 305–313.
  • Olofsson J., Kitti H., Rautiainen P., Stark P., Oksanen L. 2001 – Effects of summer grazing by reindeer on composition of vegetation, productivity and nitrogen cycling – Ecography, 24: 13–24.
  • Owensby C.E., Coyne P.I., Auen L.M. 1993 – Nitrogen and phosphorus dynamics of tallgrass prairie ecosystem exposed to elevated carbon dioxide – Plant Cell Environ. 16: 843–850.
  • Pastor J., Dewey B., Naiman R.J., Mc-Innes P.F., Cohen Y. 1993 – Moose browsing and soil fertility in the boreal forests of Isle Royale National Park – Ecology, 74: 467–480.
  • Risser P.G., Parton W.J. 1982 – Ecosystem analysis of the tallgrass prairie: nitrogen cycle – Ecology, 63: 1342–1351.
  • Ritchie M.E., Tilman D., Knops J.M. H. 1998 – Herbivore effects on plants and nitrogen dynamics in oak savanna – Ecology, 79: 165–177.
  • Seagle S.W., McNaughton S.J., Ruess R.W. 1992 – Simulated effects of grazing on soil nitrogen and mineralization in contrasting Serengeti grasslands – Ecology, 73: 1105–1123.
  • Turner C.L., Seastedt T.R., Dyer M.L. 1993 – Maximization of aboveground grassland production: the role of defoliation frequency, intensity, and history – Ecol. Appl. 3: 175–186.
  • Van der Maarel E., Titlyanova A. 1989 – Above-ground and below-ground biomass relations in steppes under different grazing conditions – Oikos, 56: 364–370.
  • Wang Q.J. 2001 – Biomass and productive mechanism of Kobersia meadow – (In: Chinese Kobresia Meadow, Ed. X.M. Zhou) – China Science Press, Beijing (in Chinese).
  • Wang R.Z., Gao Q., Chen Q.S. 2003 – Effects of climate change on biomass and biomass allocation in Leymus chinensis (Poaceae) along the Northeast China Transect (NECT) – J. Arid Environ. 54: 653–665.
  • Wang Y.F., Wang S.P. 1999 – The effects of grazing pressures on community dynamic of macrofauna in Inner Mongolia typical steppe – Acta Agrestia Sinica 3: 198–203 (in Chinese with English abstract).
  • Woodmansee R.G., Duncan D.A. 1980 – Nitrogen and phosphorus dynamics and budgets in annual grasslands – Ecology, 61: 893–904.
  • Wu N., Liu J., Yan Z.L. 2004 – Grazing intensity on the plant diversity of alpine meadow in the eastern Tibetan plateau – Rangifer, 15: 9–15.
  • Wu N., Liu Q. 1999 – Ecological environment and strategies for sustainable development on the upper reaches of the Yangtze River – World Sci. Res. Devel. 21: 70–73 (in Chinese with English abstract).
  • Zhou S.R. 1998 – Grassland Resource of Sichuan – Sichuan People Press, Chengdu. pp. 141–153 (in Chinese).
  • Zheng D. 2000 – Mountain Geoecology and Sustainable Development of the Tibetan Plateau – Kluwer Academic publishers, Dordrecht, The Netherlands.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BGPK-1839-6948
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.