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2013 | 61 | 2 |

Tytuł artykułu

Effect of climate and physiography on the distribution of trees and shrubs species in Northwest Mexico

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
In order to understand the environmental variables that may impact more on the distribution of species of trees and shrubs, a correlation analysis applying the Covariation (C) of Gregorius was conducted among 14 variables of climate and physiography, and the number of individuals of 72 species, which were found in 1804 sampling plots (covering about 123,317 km²) of the National Forests and Soils Inventory (INFyS) developed by the National Forest Commission in Mexico (CONAFOR). Among the studied species there are several of the genera Quercus, Pinus and Junniperus, which are mainly distributed in the Sierra Madre Occidental, where they stand out for their abundance. The results show that the density of 88% of the studied species have a significant correlation (P <0.025) with at least five of the 14 variables analyzed. Seven of the variables showed significant correlation (P <0.025) with at least 74% of the studied species: ‘Julian date of last spring frost’ with an average value of covariation (C) equal to 0.71, ‘average duration of the frost-free period’ with average value of C = 0.71’, degree days above 5℃’ with covariation of 0.69, ‘altitude above sea level’ with C = 0.66; ‘mean temperature in the coldest month’, ‘mean temperature in the warmest month’ and ‘mean annual temperature’, with average values of C = 0.65 for each of these last three variables. The ‘geographic orientation of the ground’ was the least correlated with the density of the species, since only 10% of them showed significant correlation with this variable.

Wydawca

-

Rocznik

Tom

61

Numer

2

Opis fizyczny

p.283-295,fig.,ref.

Twórcy

  • Doctorado Institucional en Ciencias Agropecuarias y Forestales, Universidad Juarez del Estado de Durango, Km 5.5 Carretera Mazatlan, 34120 Durango, Mexico
autor
  • Instituto de Silvicultura e Industria de la Madera, Universidad Juarez del Estado de Durango, Km 5.5 Carretera Mazatlan, 34120 Durango, Mexico
  • Instituto de Silvicultura e Industria de la Madera, Universidad Juarez del Estado de Durango, Km 5.5 Carretera Mazatlan, 34120 Durango, Mexico
  • Instituto Politecnico National, CIIDIR, Unidad Durango. Sigma 119 Col. 20 de Noviembre II. Durango, 34220 Mexico
  • Facultad de Ciencias Forestales, Universidad Juarez del Estado de Durango, Río Papaloapan y Blvd. Durango s/n, Col. Valle del Sur, 34120 Durango, Mexico
  • Instituto de Silvicultura e Industria de la Madera, Universidad Juarez del Estado de Durango, Km 5.5 Carretera Mazatlan, 34120 Durango, Mexico

Bibliografia

  • Aitken S.N., Yeaman S., Holliday J.A., Wang T., Curtis-McLane S. 2008 − Adaptation, migration or extirpation: climate change outcomes for tree populations − Evol. Appl. 1: 95−111.
  • Beg N., Morlot J.C., Davidson O., Afrane-Okesse Y., Tyani L., Denton F., Sokona Y., Thomas J. P., LaRobere E.L., Parikh J.K., Parik K., Rahman A.A. 2002 − Linkages between climate change and sustainable development − Climate Policy, 2: 129–144.
  • Budke J.C., Jarenkow J.A., Oliveira-Filho A.T. 2006 − Relationships between tree component structure, topography and soils of a riverside forest, Rio Botucaraí, Southern Brazil − Plant Ecology, 189: 187−200.
  • CONAFOR (Comisión Nacional Forestal) 2009 − Manual y procedimientos para el muestreo de campo - Inventario Nacional Forestal y de Suelos -http://148.223.105.188:2222/gif/snif_portal/secciones/inventarionacional/documentos/ManualMuestreoCampo.pdf. (February 2011).
  • Conde C., Estrada F., Martínez B., Sánchez O., Gay C. 2011 − Regional climate change scenarios for México – Atmósfera, 24: 125−140.
  • Cortés-Castelán J.C., Islebe G.A. 2005 − Influencia de factores ambientales en la distribución de especies arbóreas en las selvas del sureste de México − Revista de Biología Tropical, 53: 115−133.
  • Crookston N.L., Rehfeldt E.G., Ferguson D.E., Warwell M. 2008 − FVS and Global Warming: A prospectus for future development (In: Third Forest Vegetation Simulator Conference; 2007 February 13-15; Fort Collins, Eds: H.N. Robert, N. Crookston, L. Nicholas) − Proceedings RMRS-P-54. Fort Collins, CO: U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station. pp. 7−16.
  • Desai A.R., Normets A., Bolstad P.V., Chen J., Cook B.D., Davis K.J., Euskirchen E.S., Gough C., Martin J.G., Ricciuto D.M., Schmid H.P., Tang J., Wang W. 2008 − Influence of vegetation and seasonal forcing on carbon dioxide fluxes across the Upper Midwest, USA: Implications for regional scaling − Agr. Forest Meteorol. 148: 288−308.
  • González-Elizondo M.S., González-Elizondo M., Márquez-Linares M.A. 2007 − Vegetación y Ecorregiones de Durango − Plaza y Valdés Editores-Instituto, Politécnico Nacional, México, D.F. CIIDIR-IPN y COCYTED, Durango, México, 219 pp.
  • González-Elizondo M.S., González-Elizondo M., López E.L. 2012a − Base de datos florísticos del Estado de Durango. MS Access − Herbario CIIDIR Instituto Politécnico Nacional. Durango, México.
  • González-Elizondo M.S., González-Elizondo M., Tena-Flores J.A., Ruacho-González L., López-Enriquez, I.L. 2012b − Vegetación de la Sierra Madre Occidental, México: Una Síntesis − Acta Bot. Mex. 100: 351−403.
  • González-Elizondo M., López-Enríquez I.L., González-Elizondo M.S., Tena-Flores J.A. 2004 − Plantas Medicinales del Estado de Durango y Zonas Aledañas − Instituto Politécnico Nacional, México, D.F. 212 pp.
  • Goparaju L., Jha C.S. 2010 − Spatial dynamics of species diversity in fragmented plant communities of a Vindhyan dry tropical forest in India − Trop. Ecol. 51: 55−56.
  • Gregorius H.R., Degen B., König A. 2007 − Problems in the analysis of genetic differentiation among populations - a case study in Quercus robur − Silvae Genet. 56: 190−199.
  • Hamann A., Wang T. 2006 − Potential effects of climate change on ecosystem and tree species distribution in British Columbia − Ecology, 87: 2773−2786.
  • Hughes L. 2000 − Biological consequences of global warming: is the signal already apparent? − Trends Ecol. Evol. 15: 56−61.
  • Hutchinson M.F. 2004 − ANUSPLIN version 4.3 user guide − Centre for Resource and Environmental Studies, The Australian National University, Canberra, 54 pp.
  • INEGI (Instituto Nacional de Estadística, Geografía e Informática) 2012 − Información Nacional, por entidad federativa y municipios. http://www.inegi.org.mx/. (November 2011).
  • IPCC-WGI 2007 − (Intergovernmental Panel on Climate Change, Working Group I). Working Group I Contribution to the Intergovernmental Panel on Climate Change Fourth Assessment Report Climate Change 2007: The Physical Science Basis - Summary for Policymakers. 23 pp.
  • Iverson L.R., Prasad A.M., 1998 − Predicting abundance of 80 tree species following climate change in the eastern United States − Ecol. Monogr. 68: 465−85.
  • Kożuchowski K., Tegirmendžić J. 2005 − Contemporary changes of climate in Poland: Trends and variation in thermal and solar conditions related to plant vegetation − Pol. J. Ecol. 59: 283−297.
  • Kronenfeld B.J., Wang Y.Ch. 2007 − Accounting for surveyor inconsistency and bias in estimation of tree density from presettlement land survey records − Can. J. For. Res. 37: 2365–2379.
  • Manly B.F.J. 1997 − Randomization, Bootstrap and Monte Carlo Methods in Biology − Chapman and Hall, London, 399 pp.
  • Maurer K., Durka W., Stöcklin J. 2003 − Frequency of plant species in remnants of calcareous grassland and their dispersal and persistence characteristics − Basic Appl. Ecol. 4: 307−316.
  • Miranda F., Hernández X.E. 1963 − Los tipos de vegetación de México y su clasificación − Bol. Soc. Bot. Méx. 28: 29−31.
  • Návar J. 2004 − Preliminary testing of the ecological interactions between pines and oaks growing in mixed, unevenaged coniferous forests of Durango, Mexico − Floresta, 34: 1−10.
  • Pachauri R.K., Jallow B. 2007 − Climate Change (2007): The Physical Science Basis. Working Group I, Contribution to the IPCC Fourth Assessment Report, Presentation. Nairobi, 6 February 2007.
  • Pearson R.G., Dawson T.P. 2003 − Predicting the impacts of climate change on the distribution of species: are bioclimate envelope models useful? − Global Ecol. Biogeogr. 12: 361−371.
  • Peterson A.T., Vieglais D.A. 2001 − Predicting Species Invasions Using Ecological Niche Modeling: New Approaches from Bioinformatics Attack a Pressing Problem – BioScience, 51: 363−371.
  • Rehfeldt G.E. 2006 − A spline model of climate for the western United States − Gen. Tech. Rep. RMRS-GTR -165. USDA Forest Service, Fort Collins, 21 pp.
  • Rehfeldt G.E., Crookston N.L., Warwell M. V., Evans J.S. 2006 − Empirical analyses of plant-climate relationship for the western United States – Int. J. Plant. Sci. 167: 1123−1150.
  • Sáenz-Romero C., Rehfeldt G.E., Crookston N.L., Duval P., St. Amant R., Beaulieu J., Richardson B.A. 2010 − Spline models of contemporary, 2030, 2060 and 2090 climates for Mexico and their use in understanding climate-change impacts on the vegetation − Climatic Change, 102: 595−623.
  • Schrag A.M., Bunn A.G., Graumlich L. J. 2008 − Influence of bioclimatic variables on treeline conifer distribution in the Greater Yellowstone Ecosystem: implications for species of conservation concern − J. Biogeogr. 35: 698–710.
  • Sharma C.M., Suyal S., Gairola S., Ghildiyal S.K. 2009 − Species richness and diversity along an altitudinal gradient in moist temperate forest of Garhwal Himalaya − J. American Sci. 5: 119−128.
  • Steffen W. 2008 − Working group 1 report of the IPCC fourth assessment-an editorial − Global Environ. Chang. 18: 1−3.
  • Tchebakova N.M., Rehfeldt G.E., Parfenova E.I. 2005 − Impacts of climate change on the distribution of Larix spp. and Pinus sylvestris and their climatypes in Siberia − Mitig. Adapt. Strat. Glob. Change, 11: 861−882.
  • Wehenkel C., Corral-Rivas J.J., Hernández-Díaz, J.C., Gadow K.Y. 2011a − Estimating Balanced Structure Areas in multispecies forests on the Sierra Madre Occidental, Mexico − Ann. Forest Sci. 68: 385−394.
  • Wehenkel C., Corral-Rivas J.J., Hernández-Díaz, J.C. 2011b − Genetic diversity in relation to secondary succession of forest tree communities? − Pol. J. Ecol. 1: 45−54.
  • Woodward F.I. 1987 − Climate and plant distribution − Cambridge University Press, Cambridge, U.K. 188 pp.
  • Woodward F.I., Lomas M.R., Kelly C.K. 2004 − Global climate and the distribution of plant biomes − Phil. Trans. R. Soc. B. 359: 1465−1476.
  • Zhu Q., Jiang H., Liu J., Peng C., Fang X., Yu S., Zhou G., Wei X., Ju W. 2011 − Forecasting carbon budget under climate change and CO₂ fertilization for subtropical region in China using integrated biosphere simulator (IBIS) model − Pol. J. Ecol. 59: 3−24.

Typ dokumentu

Bibliografia

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