Spatial heterogeneity of soil seed banks in sandy grasslands under fencing and grazing in Horqin sandland, Northern China

Zuo, X.; Zhao, X.; Zhao, H.; Zhang, T.; Wang, S.; Knops, J.; Kochsiek, A.

Artykuł - szczegóły

Tytuł artykułu

Spatial heterogeneity of soil seed banks in sandy grasslands under fencing and grazing in Horqin sandland, Northern China

Autorzy

Zuo X. , Zhao X. , Zhao H. , Zhang T. , Wang S. , Knops J. , Kochsiek A.

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

Understanding composition, structure and spatial heterogeneity in soil seed banks is important for the management of grassland ecosystem. Although the effect of fencing and grazing on vegetation composition is widely known, information on species composition, seed density and spatial heterogeneity of soil seed banks in sandy grasslands under fencing and grazing is still lacking. We measured the species composition and seed density of soil seed banks in fenced grassland, grazed grassland and grazed shrubby grassland in Horqin Sand Land, Northern China. By applying the geostatistical methods, we assessed how fencing and grazing affected spatial heterogeneity of soil seed banks in sandy grasslands. Total seed density and species richness in soil seed banks were lower in fenced grassland than in either grazed grassland or grazed shrubby grassland. Seed density and species richness of annual species in soil seed banks were also lower in fenced grassland than in either grazed grassland or grazed shrubby grassland, while those of perennial species showed a reverse trend. The analysis of spatial autocorrelation ranges, fractal dimensions and distribution pattern maps from geostatistical methods showed that spatial heterogeneity of seed density and species richness in soil seed banks were also lower in fenced grassland than in either grazed grassland or grazed shrubby grassland. Continuous fencing increases the seed density and species richness of perennial species in soil seed banks, as well as results in a decrease in spatial heterogeneity of seed density and species richness in soil seed banks. So, continuous fencing should be considered to restore the degraded sandy grasslands in management of semiarid grassland ecosystems.

Słowa kluczowe

grazing sandy grassland soil seed bank scale dependence spatial heterogeneity

wypas użytki piaszczyste bank nasion łąka przestrzenne zróżnicowanie

Wydawca

Museum and Institute of Zoology, Polish Academy of Sciences

Czasopismo

Polish Journal of Ecology

Rocznik

2013

Tom

Vol. 61, nr 2

Strony

221--231

Opis fizyczny

Bibliogr. 53 poz., il.

Twórcy

autor

Zuo X.

zuoxa@lzb.ac.cn

Naiman Desertification Research Station, Cold and Arid Regions Environmental and Engineering Research Institute, Chinese Academy of Sciences, Lanzhou, 730000, China
Laboratory of Plant Stress Ecophysiology and Biotechnology (LPSEB), CAREERI, CAS, Lanzhou, 730000, China

autor

Zhao X.

Naiman Desertification Research Station, Cold and Arid Regions Environmental and Engineering Research Institute, Chinese Academy of Sciences, Lanzhou, 730000, China
Laboratory of Plant Stress Ecophysiology and Biotechnology (LPSEB), CAREERI, CAS, Lanzhou, 730000, China

autor

Zhao H.

Naiman Desertification Research Station, Cold and Arid Regions Environmental and Engineering Research Institute, Chinese Academy of Sciences, Lanzhou, 730000, China
Laboratory of Plant Stress Ecophysiology and Biotechnology (LPSEB), CAREERI, CAS, Lanzhou, 730000, China

autor

Zhang T.

Naiman Desertification Research Station, Cold and Arid Regions Environmental and Engineering Research Institute, Chinese Academy of Sciences, Lanzhou, 730000, China
Laboratory of Plant Stress Ecophysiology and Biotechnology (LPSEB), CAREERI, CAS, Lanzhou, 730000, China

autor

Wang S.

Naiman Desertification Research Station, Cold and Arid Regions Environmental and Engineering Research Institute, Chinese Academy of Sciences, Lanzhou, 730000, China
Laboratory of Plant Stress Ecophysiology and Biotechnology (LPSEB), CAREERI, CAS, Lanzhou, 730000, China

autor

Knops J.

School of Biological Sciences, University of Nebraska-Lincoln, Lincoln, 62588, USA

autor

Kochsiek A.

School of Biological Sciences, University of Nebraska-Lincoln, Lincoln, 62588, USA

Bibliografia

1. Adler P.B., Raff D.A., Lauenroth W.K., 2001 - The effect of grazing on the spatial heterogeneity of vegetation - Oecologia, 128: 465-479.
2. Aguiar M.R., Sala O.E. 1997 - Seed distribution constrains the dynamics of the Patagonian steppe - Ecology, 78: 93-100.
3. Augustine D.J. 2003 - Spatial heterogeneity in the herbaceous layer of a semi-arid savanna ecosystem - Plant Ecol. 167: 319-332.
4. Bekker R.M., Verweij G.L., Smith R.E.N., Reine R., Bakker J.P., Schneider S. 1997 - Soil seed bank in European grasslands: does land use affect regeneration perspectives? - J. Appl. Ecol. 34: 1293-1310.
5. Ben-Natan G., Abramsky Z., Kotler B.P., Brown J.S. 2004 - Seed redistribution in sand dunes: a basis for coexistence of two rodent species - Oikos, 105: 325-335.
6. Bertiller M.B. 1998 - Spatial patterns of the germinable soil seed bank in northern Patagonia - Seed Sci. Res. 8: 39-45.
7. Caballero I., Olano J.M., Escudero A., Loidi J. 2008 - Seed bank spatial structure in semi-arid environments: beyond the patch-bare area dichotomy - Plant Ecol. 195: 215-223.
8. Caballero, I., Olano, J.M., Loidi, J., Es-cudero, A., 2003 - Seed bank structure along a semi-arid gypsum gradient in Central Spain - J. Arid Environ. 55: 287-299.
9. Cannavacciuolo M., Bellido A., Cluzeau D., Gascuel C., Trehen P. 1998 - A geo-statistical approach to the study of earthworm distribution in grassland - Appl. Soil Ecol. 9:345-349.
10. Cavieres L.A., Arroyo T.K. 2001 - Persistent soil seed bank in Phacelia secunda (Hydrophyllaceae): experimental detection of variation along an altitudinal gradient in the Andes of central Chile - J. Ecol. 89: 31-39.
11. Chambers J.C., MacMahon J.A. 1994 - A day in the life of a seed: movements and fates of seeds and their implications for natural and managed systems - Annu. Rev. Ecol. Syst. 25: 263-292.
12. Gamma Design Software GS + 5.3. 2002 -Geostatistics for the Environmental Sciences. Plainwell, Michigan, USA. http://www.gam-madesign.com.
13. Grime J.P. 1979 - Plant strategies and vegetation processes - Chichester: John Wiley and Sons.
14. HeZ.B.,Zhao W.Z. 2006 - Characterizing the spatial structures of riparian plant communities in the lower reaches of the Heihe River in China using geostatistical Techniques - Ecol. Res. 21:551-559.
15. Holzel N., Otte A. 2001 - The impact of flooding regime on the soil seed bank of flood-meadows - J. Veg. Sci. 12: 209-218.
16. Isaaks E., Srivastava R. 1989-Applied Geo-statistics - Oxford University Press, New York, pp. 561.
17. Jimenez-Lobato V., Valverde T. 2006 -Population dynamics of the shrub Acacia bilimekii in a semi-desert region in central Mexi-co - J. Arid Environ. 65: 29-45.
18. Jutila H. 1998 - Seed banks of grazed and un-grazed Baltic seashore meadows - J. Veg. Sci. 9: 395-408.
19. Landsberg J., James C.D., Maconochie J., Nicholls A.O., Stol J., Tynan R. 2002-Scale-related effects of grazing on native plant communities in an arid rangeland region of South Australia - J. Appl. Ecol. 39: 427-444.
20. Leek M.A., Parker V.T., Simpson R.L. 1989 - Ecology of Soil Seed Banks - Academic Press, San Diego, California, pp. 283-305.
21. Li F.R. 2008 - Presence of shrubs influences the spatial pattern of soil seed banks in desert herbaceous vegetation - J. Veg. Sci. 19: 537-548.
22. Li F.R., Zhao L.Y., Zhang H., Liu J.L., Lu H.Y., Kang L.F. 2009 - Habitat degradation, topography and rainfall variability interact to determine seed distribution and recruitment in a sand dune grassland - J. Veg. Sci. 20: 847-859.
23. Liu Z., Yan Q., Li X., Ma J., Ling X. 2007 - Seed mass and shape, germination and plant abundance in a desertified grassland in northeastern Inner Mongolia, China - J. Arid Environ. 69: 198-211.
24. Luo Y.Y., Zhao X.Y., Zuo X.A., Zhang J.H., Liu R.T., Wang S.K. 2010 - Leaf nitrogen resorption pattern along habitats of semi-arid sandy land with different nitrogen status - Pol. J. Ecol. 58: 707-716.
25. Ma J.L, Liu Z.M. 2008- Spatiotemporal pattern of seed bank in the annual psammophyte Agriophyllum squarrosum Moq. (Chenopodiaceae) on the active sand dunes of north-eastern Inner Mongolia, China - Plant and Soil, 311:97-107.
26. Ma M.J., Zhou X.H., Du G.Z. 2010 - Role of soil seed bank along a disturbance gradient in an alpine meadow on the Tibet plateau -Flora, 205: 128-134.
27. Maestre F.T., Bowker M.A., Puche M.D., Belen Hinojosa M., Martinez I., Garcia-Palacios P., Castillo A.P., Soliveres S., Luzuriaga A.L., Sanchez A.M., Carreira J.A., Gallardo A., Escudero A. 2009 - Shrub encroachment can reverse desertification in semi-arid Mediterranean grasslands - Ecol. Lett. 12: 930-941.
28. Maestre F.T., Cortina J. 2005 - Remnant shrubs in Mediterranean semi-arid steppes: effects of shrub size, abiotic factors and species identity on understory richness and occurrence - Acta Oecolog. 27: 161-169.
29. Mao W., Li Y.L., Cui J.Y., Zuo X.A. Zhao X.Y. 2011 - Variations in foliar nutrient resorption efficiency of different plant growth forms in a temperate sandy grassland - Pol. J. Ecol. 59: 355-365.
30. Matus G., Papp M., Tothmeresz B. 2005-Impact of management on vegetation dynamics and seed bank formation of inland dune grassland in Hungary - Flora, 200: 296-306.
31. McDonald A.W., Bakker J.P., Vegelin K. 1996 - Seed bank classification and its importance for the restoration of species-rich flooded-meadows - J. Veg. Sci. 7: 156-164.
32. Meissner R.A., Facelli J.M. 1999 - Effects of sheep exclusion on the soil seed bank and annual vegetation in chenopod shrublands of south Australia - J. Arid Environ. 42: 117-128.
33. Nathan R., Muller-Landau H. C. 2000 -Spatial patterns of seed dispersal, their determinants and consequences for recruitment -Trends Ecol. Evol. 15: 278-285.
34. Nathan R., Safriel U.N., Noy-Meir I., Schiller G. 2000 - Spatiotemporal variation in seed dispersal and recruitment near and far from Pinus halepensis Trees - Ecology, 81: 2156-2169.
35. Ortega M., Levassor C., Peco B. 1997 -Seasonal dynamics of Mediterranean pasture seed banks along environmental gradients - J. Biogeogr. 24: 177-195.
36. Osem Y., Konsens I., Perevolotsky A., Kigel J. 2007 - Soil seed bank and seedling emergence of Sarcopoterium spinosum as affected by grazing in a patchy semiarid shrubland - Isr. J. Plant Sci. 55: 35-43.
37. Osem Y., Perevolotsky A., Kiegel J., 2002 - Grazing effect on diversity of annual plant communities in a semi-arid rangeland: interactions with small-scale spatial and temporal variation in primary productivity - J. Ecol. 90: 936-946.
38. Pazos G.E., Bertiller M.B. 2008 - Spatial patterns of the germinable soil seed bank of coexisting perennial-grass species in grazed shrublands of the Patagonian Monte - Plant Ecol. 198: 111-120.
39. Pugnaire F.I., Lazaro R. 2000 - Seed bank and understory composition in a semi-arid environment: the effect of shrub age and rainfall - Ann. Bot. 86: 807-813.
40. Renne I.J., Tracy B.T. 2007 - Disturbance persistence in managed grasslands: shifts in aboveground community structure and the weed seed bank - Plant Ecol. 190: 71-80.
41. Sternberg M., Gutman M., Perevolotsky A., Ungar E.D., Kigel. J. 2000 - Vegetation response to grazing management in a Mediterranean herbaceous community: a functional group approach - J. Appl. Ecol. 37: 224-237.
42. Su Y.Z., Li Y.L., Zhao H.L. 2006 - Soil properties and their spatial pattern in a degraded sandy grassland under post-grazing restoration, Inner Mongolia, northern China - Bio-geochemistry, 79: 297-314.
43. Thompson K., Grime J.P. 1979 - Seasonal variation in the seed banks of herbaceous species in ten contrasting habitats - J. Ecol. 67: 893-921.
44. Touzard B., Amiaud B., Langlois E., Lemauviel S., Cle'ment B. 2002 -The relationship between soil seed bank, aboveground vegetation and disturbances in an eutrophic alluvial wetland of Western France - Flora, 197: 175-185.
45. Venable D.L., Brown J.S. 1988 - The selective interactions of dispersal, dormancy, and seed size as adaptations for reducing risk in variable environments - Am. Nat. 131: 360-384.
46. Wang Y.S., Shiyomi M., Tsuiki M., Tsut-sumi M., Yu X.R., Yi R.H. 2002 - Spatial heterogeneity of vegetation under different grazing intensities in the Northwest Heilongjiang Steppe of China - Agr. Ecosyst. Environ. 90:217-229
47. Witkowski E.T.F., Garner R.D. 2000 - Spatial distribution of soil seed banks of three African savanna woody species at two contrasting sites - Plant Ecol. 149: 91-106.
48. Yan Q., Liu Z., Zhu J., Luo Y., Wang H., Jiang D. 2005 - Structure, pattern and mechanisms of formation of seed banks in sand dune systems in northeastern Inner Mongolia, China - Plant Soil, 277: 175-184.
49. Zhao H.L., Zhao X.Y., Zhang T.H., Zhou R.L. 2005 - Desertification processes due to heavy grazing in sandy rangeland, Inner Mongolia - J. Arid Environ. 62: 309-319.
50. Zhao H.L., Zhou R.L., Su Y.Z., Zhang H., Zhao L.Y., Drake S. 2007 - Shrub facilitation of desert land restoration in the Horqin Sand Land of Inner Mongolia - Ecol. Eng. 31: 1-8.
51. Zuo X.A., Wang S.K., Zhao X.Y., Li W.J., Knops J., Kochsiek A. 2012 - Effect of spatial scale and topography on spatial heterogeneity of soil seed banks under grazing disturbance in a sandy grassland of Horqin Sand Land, Northern China - J. Arid Land. 4: 151-160.
52. Zuo X.A., Zhao H.L., Zhao X.Y., Zhang T. H., Guo Y.R., Wang S.K., Drake S. 2008 - Spatial pattern and heterogeneity of soil properties in sand dunes under grazing and restoration in Horqin Sandy Land, Northern China - Soil Till. Res. 99: 202-212.
53. Zuo X.A., Zhao X.Y., Zhao H.L., Zhang T.H., Guo Y.R., Li Y.Q., Huang Y.X. 2009 - Spatial heterogeneity of soil properties and vegetation-soil relationships following vegetation restoration of mobile dunes in Horqin Sandy Land, Northern China - Plant Soil. 318: 153-167.

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-68874ed6-9050-47cf-a733-0ce9aa075612