Vegetation succession on reclaimed coal wastes in Spain: the influence of soil and environmental factors

Question: How is vegetation succession on coal mine wastes under a Mediterranean climate affected by the restoration method used (topsoil addition or not)? How are plant successional processes influenced by local landscape and soil factors? Location: Reclaimed coal mines in the north of Palencia province, northern Spain (42147 0 -42150 0 N, 4132 0 -4153 0 W). Methods: In Jun‐Jul 2008, vascular plant species cover was monitored in 31 coal mines. The mines, which had been restored using two restoration methods (topsoil addition or not), comprised a chronosequence of different ages from 1 to 40 yr since restoration started. Soil and environmental factors at each mine were monitored and related to species cover using a combination of ordination methods and Huisman‐Olff‐Fresco modeling. Results: Plant succession was affected by restoration method . Where topsoil was added, succession was influenced by age since restoration and soil pH. Where no topsoil was added, soil factors seem to arrest succession. Vegetation composition on topsoiled sites showed a gradient with age, from the youngest, with early colonizing species, to oldest, with an increase in woody species. Vegetation on non-topsoiled sites comprised mainly early-successional species. Response to age and pH of 37 species found on topsoiled mines is described. Conclusions: Restoration of coal mines under this Mediterranean climate can be relatively fast if topsoil is added, with a native shrub community developing after 15 yr. However, if topsoil is not used, it takes more than 40 yr. For topsoiled mines, the species found in the different successional stages were identified, and their tolerance to soil pH was derived. This information will assist future restoration projects in the area.

[1]  E. Odum The strategy of ecosystem development. , 1969, Science.

[2]  L. Walker,et al.  Environmental Disasters, Natural Recovery and Human Responses , 2007 .

[3]  K. Holl Long‐term vegetation recovery on reclaimed coal surface mines in the eastern USA , 2002 .

[4]  J. Oksanen,et al.  Niche characteristics of Danish woody species as derived from coenoclines , 2002 .

[5]  Norman L. Christensen,et al.  CONVERGENCE DURING SECONDARY FOREST SUCCESSION , 1984 .

[6]  Roger del Moral,et al.  Transition Dynamics in Succession : Implications for Rates , Trajectories and Restoration , 2008 .

[7]  L. Walker,et al.  Lessons from primary succession for restoration of severely damaged habitats , 2009 .

[8]  P. Pyšek,et al.  Climate and pH as determinants of vegetation succession in Central European man-made habitats , 2007 .

[9]  Rob H. Marrs,et al.  Some factors affecting successional change on uranium mine wastes: Insights for ecological restoration , 2007 .

[10]  Karel Prach,et al.  Manipulation of Succession , 2007 .

[11]  R. Marrs,et al.  Soil seed bank formation during early revegetation after hydroseeding in reclaimed coal wastes , 2009 .

[12]  K. Prach,et al.  Spontaneous vegetation succession in disused gravel-sand pits: Role of local site and landscape factors , 2006 .

[13]  Ter Braak,et al.  Canoco reference manual and CanoDraw for Windows user''s guide: software for canonical community ord , 2002 .

[14]  A. Willis,et al.  Current approaches to the revegetation and reclamation of metalliferous mine wastes. , 2000, Chemosphere.

[15]  K. Holl,et al.  Vegetational community development on reclaimed coal surface mines in Virginia1 , 1994 .

[16]  T. Wiegand,et al.  Exploring spatiotemporal patterns in early stages of primary succession on former lignite mining sites , 2008 .

[17]  E. Bochet,et al.  How can we control erosion of roadslopes in semiarid mediterranean areas? Soil improvement and native plant establishment , 2010 .

[18]  Karel Prach,et al.  Spontaneous Vegetation Succession in Gravel–Sand Pits: A Potential for Restoration , 2008 .

[19]  F. Berendse,et al.  Plant species as predictors of soil pH: Replacing expert judgement with measurements , 2005 .

[20]  L. Walker,et al.  Plant characteristics are poor predictors of microsite colonization during the first two years of primary succession , 2006 .

[21]  Richard J. Hobbs,et al.  Linking restoration and ecological succession , 2007 .

[22]  BOTANiCAL Gazette,et al.  Handbook of Soil Science , 1933, Botanical Gazette.

[23]  J. B. Kenworthy,et al.  Chemical Analysis of Ecological Materials. , 1976 .

[24]  R. Kadmon,et al.  Pattern analysis in successional communities – An approach for studying shifts in ecological interactions , 2003 .

[25]  A. Walkley,et al.  A CRITICAL EXAMINATION OF A RAPID METHOD FOR DETERMINING ORGANIC CARBON IN SOILS—EFFECT OF VARIATIONS IN DIGESTION CONDITIONS AND OF INORGANIC SOIL CONSTITUENTS , 1947 .

[26]  K. Prach The Restoration and Management of Derelict Land: Modern Approaches , 2004 .

[27]  J. Nicolau,et al.  Vegetation succession in reclaimed coal-mining slopes in a Mediterranean-dry environment , 2008 .

[28]  H. Olff,et al.  A hierarchical set of models for species response analysis , 1993 .

[29]  Jeffrey Clary,et al.  The ecology of restoration: historical links, emerging issues and unexplored realms , 2005 .

[30]  Richard J. Hobbs,et al.  Integrating Restoration and Succession , 2007 .

[31]  M. Hill,et al.  Detrended correspondence analysis: An improved ordination technique , 2004, Vegetatio.

[32]  Rainer Horn,et al.  Handbook of soil science. , 1996 .

[33]  E. Bochet,et al.  Factors Controlling Vegetation Establishment and Water Erosion on Motorway Slopes in Valencia, Spain , 2004 .

[34]  B. Meatyard Biology and Wildlife of the Mediterranean Region , 2000 .

[35]  S. Tischew,et al.  Implementation of Basic Studies in the Ecological Restoration of Surface‐Mined Land , 2007 .

[36]  Ruprecht Düll,et al.  Zeigerwerte von Pflanzen in Mitteleuropa , 1992 .

[37]  R. Marrs,et al.  The influence of aspect on the early growth dynamics of hydroseeded species in coal reclamation areas , 2008 .

[38]  Josu G. Alday,et al.  The importance of topography and climate on short-term revegetation of coal wastes in Spain , 2010 .

[39]  R. del Moral,et al.  Spatial factors affecting primary succession on the Muddy River Lahar, Mount St. Helens, Washington , 2009, Plant Ecology.