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23.08.2019 | Original Paper

Could plant diversity metrics explain climate-driven vegetation changes on mountain summits of the GLORIA network?

verfasst von: Francesco Porro, Marcello Tomaselli, Thomas Abeli, Maurizia Gandini, Matteo Gualmini, Simone Orsenigo, Alessandro Petraglia, Graziano Rossi, Michele Carbognani

Erschienen in: Biodiversity and Conservation | Ausgabe 13/2019

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Abstract

High-elevation habitats host a large number of plant species and are characterized by high biodiversity. The vegetation dynamics in these cold adapted ecosystems are difficult to predict, being affected by global warming, especially in the last decades. With the aim to promote a better understanding of climate-driven changes of alpine vegetation, we investigated the variation in species richness, α-diversity, β-diversity, and total cover of plant functional types over a time lapse of 15 years, relying on multiple re-surveys of mountain summit vegetation in 2001, 2008 and 2015. The study area, included in the long term global observation network GLORIA, was at the boundary between temperate and Mediterranean mountains of S-Europe (northern Apennines, Italy). We identified a trend of loss in biodiversity and signals of biotic homogenization using multiple diversity metrics, despite the overall species richness increment observed in the study area. Cold-adapted and rare species declined while dominant species like graminoids and shrubs increased. Our results highlight that long-term vegetation monitoring activities paired with multiple measures of diversity are required to properly assess biodiversity and to obtain useful indications for future conservation activities in alpine environments. The methods here presented could be applied in all GLORIA sites to quantify biodiversity changes over time, obtaining comparable results for biodiversity monitoring in high-elevation habitats from all over the world.

Vorheriger Artikel From ecological knowledge to conservation policy: a case study on green tree retention and continuous-cover forestry in Sweden

Nächster Artikel Abundance and spatial distribution of the main food species for mountain gorillas in the Virunga Massif, Rwanda

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Abeli T, Rossi G, Gentili R et al (2012a) Effect of the extreme summer heat waves on isolated populations of two orophitic plants in the north Apennines (Italy). Nord J Bot 30:109–115

Abeli T, Rossi G, Gentili R, Mondoni A, Cristofanelli P (2012b) Response of alpine plant flower production to temperature and snow cover fluctuation at the species range boundary. Plant Ecol 213:1–13

Alexander JM, Chalmandrier L, Lenoir J et al (2018) Lags in the response of mountain plant communities to climate change. Glob Change Biol 24:563–579

Antolini G et al (2017) Atlante Climatico dell’Emilia-Romagna 1961–2015. Casma Tipolito, Bologna

Atkinson KE (2008) An introduction to numerical analysis, 2nd edn. Wiley, New York

Barwell LJ, Isaac NJ, Kunin WE (2015) Measuring β-diversity with species abundance data. J Anim Ecol 84(4):1112–1122PubMedPubMedCentral

Baselga A (2010) Partitioning the turnover and nestedness components of beta diversity. Glob Ecol Biogeogr 19:134–143

Baselga A (2013) Multiple site dissimilarity quantifies compositional heterogeneity among several sites, while average pairwise dissimilarity may be misleading. Ecography 36(2):124–128

Baselga A, Orme CDL (2012) betapart: an R package for the study of beta diversity. Methods Ecol Evol 3(5):808–812

Bates D, Maechler M, Bolker B, Walker S (2015) Fitting linear mixed-effects models using lme4. J Stat Softw 67(1):1–48

Bellard C, Bertelsmeier C, Leadley P, Thuiller W, Courchamp F (2012) Impacts of climate change on the future of biodiversity. Ecol Lett 15:365–377PubMedPubMedCentral

Bigelow NH, Brubaker LB, Edwards ME et al (2003) Climate change and arctic ecosystems: 1. Vegetation changes north of 55 N between the last glacial maximum, mid-Holocene, and present. J Geophys Res 108(D19):8170

Bobbink R, Hicks K, Galloway J et al (2010) Global assessment of nitrogen deposition effects on terrestrial plant diversity: a synthesis. Ecol Appl 20:30–59PubMed

Braun-Blanquet J (1964) Pflanzensoziologie, Grundzüge der Vegetationskunde, 3rd edn. Springer, New York

Britton AJ, Beale CM, Towers W, Hewison RL (2009) Biodiversity gains and losses: evidence for homogenisation of Scottish alpine vegetation. Biol Cons 142:1728–1739

Cannone N, Pignatti S (2014) Ecological responses of plant species and communities to climate warming: upward shift or range filling processes? Clim Change 123:201–214

Carbognani M, Tomaselli M, Petraglia A (2014) Current vegetation changes in an alpine late snowbed community in the south-eastern Alps (N-Italy). Alp Bot 124:105–113

Carbognani M, Bernareggi G, Perucco F, Tomaselli M, Petraglia A (2016) Micro-climatic controls and warming effects on flowering time in alpine snowbeds. Oecologia 182:573–585PubMed

Champely S (2018) PairedData: Paired Data Analysis. R package version 1.1.1. https://CRAN.R-project.org/package=PairedData

Chao A, Chiu CH, Jost L (2014) Unifying species diversity, phylogenetic diversity, functional diversity, and related similarity and differentiation measures through Hill numbers. Annu Rev Ecol Evol Syst 45:297–324

Chapin FS, Bret-Harte MS, Hobbie SE, Zhong HL (1996) Plant functional types as predictors of transient responses of arctic vegetation to global change. J Veg Sci 7:347–358

Colwell RK, Brehm G, Cardelús CL, Gilman AC, Longino JT (2008) Global warming, elevational range shifts, and lowland biotic attrition in the wet tropics. Science 322:258–261PubMed

Dallan Nardi L, Nardi R (1974) Schema stratigrafico e strutturale dell’Appennino settentrionale. Memorie Della Accademia Lunigianese di Scienze 42(1972):1–212

Di Battista T, Fortuna F, Maturo F (2017) BioFTF: an R package for biodiversity assessment with the functional data analysis approach. Ecol Ind 73:726–732

Dormann CF, Woodin SJ (2002) Climate change in the Arctic: using plant functional types in a meta‐analysis of field experiments. Funct Ecol 16(1):4–17

Dullinger S, Gattringer A, Thuiller W et al (2012) Extinction debt of high-mountain plants under twenty-first-century climate change. Nat Clim Change 2:619–622

Elmendorf SC, Henry GHR, Hollister RD et al (2012) Global assessment of experimental climate warming on tundra vegetation: heterogeneity over space and time. Ecol Lett 15:164–175PubMed

ENSCONET (2009) ENSCONET seed collecting manual for wild species. http://www.plants2020.net/document/0183/

Ernakovich JG, Hopping KA, Berdanier AB et al (2014) Predicted responses of arctic and alpine ecosystems to altered seasonality under climate change. Glob Change Biol 20:3256–3269

Ferrari C, Piccoli F (1997) The ericaceous dwarf shrublands above the Northern Apennines timberline (Italy). Phytocoenologia 27:53–76

Fick SE, Hijmans RJ (2017) WorldClim 2: new 1-km spatial resolution climate surfaces for global land areas. Int J Climatol 37(12):4302–4315

Fox J, Weisberg S, Bates D, Fox MJ (2012) Package “car”. http://cran.r-project.org/web/packages/car/car.pdf

Fu G, Shen ZX, Sun W, Zhong ZM, Zhang XZ, Zhou YT (2015) A meta-analysis of the effects of experimental warming on plant physiology and growth on the Tibetan Plateau. J Plant Growth Regul 34:57–65

Gennai M, Foggi B, Viciani D, Carbognani M, Tomaselli M (2014) The Nardus-rich communities in the northern Apennines (N-Italy): a phytosociological, ecological and phytogeographical study. Phytocoenologia 44:55–80

Gerdol R, Brancaleoni L, Menghini M, Marchesini R (2000) Response of dwarf shrubs to neighbour removal and nutrient addition and its influence on community structure in a subalpine heath. J Ecol 88:256–266

Grabherr G (2003) Alpine vegetation dynamics and climate change – a synthesis of long-term studies and observations. In: Nagy L, Grabherr G, Körner C, Thompson DBA (eds) Alpine biodiversity in Europe ecological studies, vol 167. Springer, Berlin, pp 399–409

Grabherr G, Gottfried M, Pauli H (1994) Climate effects on mountain plants. Nature 369:448PubMed

Grytnes JA, Kapfer J, Jurasinski G (2014) Identifying the driving factors behind observed elevational range shifts on European mountains. Glob Ecol Biogeogr 23:876–884

Hammer Ø, Harper DAT, Ryan PD (2001) PAST: paleontological statistics software package for education and data analysis. Palaeontol Electron 4:1–9

Hill MO (1973) Diversity and evenness: a unifying notation and its consequences. Ecology 54:427–432

Holzinger B, Hülber K, Camenisch M, Grabherr G (2008) Changes in plant species richness over the last century in the eastern Swiss Alps: elevational gradient, bedrock effects and migration rates. Plant Ecol 195:179–196

IPCC (2014) Climate Change 2014: Fifth Assessment Report. Cambridge University Press, Cambridge

Jurasinski G, Kreyling J (2007) Upward shift of alpine plants increases floristic similarity of mountain summits. J Veg Sci 18:711–718

Kirschbaum MUF (1995) The temperature dependence of soil organic matter decomposition and the effect of global warming on soil organic carbon storage. Soil Biol Biochem 27:753–760

Koleff P, Gaston KJ, Lennon JJ (2003) Measuring beta diversity for presence–absence data. J Anim Ecol 72:367–382

Körner C (1995) Alpine plant diversity: a global survey and functional interpretations. In: Chapin FS, Körner C (eds) Arctic and alpine biodiversity: patterns, causes and ecosystem consequences. Ecological studies (Analysis and Synthesis), vol 113. Springer, Berlin

Körner C (2003) Alpine plant life: functional plant ecology of high mountain ecosystems, 2nd edn. Springer, Heidelberg

Körner C, Jetz W, Paulsen J et al (2017) A global inventory of mountains for bio-geographical applications. Alp Bot 127:1–15

Lenoir J, Gégout JC, Marquet PA, De Ruffray P, Brisse H (2008) Significant upward shift in plant species optimum elevation during the 20th century. Science 320:1768–1771PubMed

MacDonald NW, Zak DR, Pregitzer KS (1995) Temperature effects on kinetics of microbial respiration and net nitrogen and sulfur mineralization. Soil Sci Soc Am J 59:233–240

Matteodo M, Ammann K, Verrecchia PE, Vittoz P (2016) Snowbeds are more affected than other subalpine–alpine plant communities by climate change in the Swiss Alps. Ecol Evol 6:6969–6982PubMedPubMedCentral

Mountain Research Initiative EDW Working Group (2015) Elevation dependent warming in mountain regions of the world. Nat Clim Change 5:424–430

Müller JV, Berg C, Détraz-Méroz J et al (2017) The Alpine Seed Conservation and Research Network - a new initiative to conserve valuable plant species in the European Alps. J Mt Sci 14(4):806–810

Myers-Smith IH, Forbes BC, Wilmking M et al (2011) Shrub expansion in tundra ecosystems: dynamics, impacts and research priorities. Environ Res Lett 6(4):045509

Myers-Smith IH, Elmendorf SC, Beck PS et al (2015) Climate sensitivity of shrub growth across the tundra biome. Nat Clim Change 5(9):887

Orsenigo S, Mondoni A, Rossi G, Abeli T (2014) Some like it hot and some like it cold, but not too much: plant responses to climate extremes. Plant Ecol 215:677–688

Orsenigo S, Abeli T, Rossi G et al (2015) Effects of autumn and spring heat waves on seed germination of high mountain plants. PLoS ONE 10(7):e0133626. https://doi.org/10.1371/journal.pone.0133626 CrossRefPubMedPubMedCentral

Parmesan C (2006) Ecological and evolutionary responses to recent climate change. Annu Rev Ecol Evol Syst 37:637–669

Parolo G, Rossi G (2008) Upward migration of vascular plants following a climate warming trend in the Alps. Basic Appl Ecol 9:100–107

Patil GP, Taillie C (1979) An overview of diversity. In: Grassle JF, Patil GP, Smith W, Taille C (eds) Ecological diversity in theory and practice. International Cooperative Publishing House, Fairland (Maryland), pp 3–27

Patil GP, Taillie C (1982) Diversity as a concept and its measurement. J Am Stat Assoc 77:548–561

Pauli H, Gottfried M, Hohenwallner D, Hülber K, Reiter K, Grabherr G (2001) Gloria - the multi-summit approach. Field manual, 2nd draft version, Wien

Pauli H, Gottfried M, Dullinger S et al (2012) Recent plant diversity changes on Europe’s mountain summits. Science 336:353–355PubMed

Pauli H, Gottfried M, Grabherr G (2014) Effects of climate change on the alpine and nival vegetation of the Alps. J Mt Ecol 7:9–12

Pauli H, Gottfried M, Lamprecht A, et al (2015) The GLORIA field manual: Standard Multi-Summit approach, supplementary methods, and extra approaches. GLORIA-Coordination, Austrian Academy of Sciences & University of Natural Resources and Life Sciences, Wien

Petraglia A, Tomaselli M (2007) Phytosociological study of the snowbed vegetation in the Northern Apennines (Northern Italy). Phytocoenologia 37:67–98

Pielou EC (1975) Ecological diversity. Wiley, New York

R Core Team R (2017): a language and environment for statistical computing. R Foundation for Statistical Computing, Wien

Rixen C, Wipf S, Frei E, Stöckli V (2014) Faster, higher, more? Past, present and future dynamics of alpine and arctic flora under climate change. Alp Bot 124:77–79

Rogora M, Mosello R, Arisci S et al (2006) An overview of atmospheric deposition chemistry over the Alps: present status and long-term trends. Hydrobiologia 562(1):17–40

Ross LC, Woodin SJ, Hester AJ, Thompson DBA, Birks HBJ (2012) Biotic homogenization of upland vegetation: patterns and drivers at multiple spatial scales over five decades. J Veg Sci 23:755–770

Rumpf SB, Hülber K, Klonner G et al (2018) Range dynamics of mountain plants decrease with elevation. Proc Natl Acad Sci 115(8):1848–1853PubMed

Rumpf SB, Hülber K, Zimmermann NE, Dullinger S (2019) Elevational rear edges shifted at least as much as leading edges over the last century. Glob Ecol Biogeogr 28(4):533–543

Rustad LE, Campbell JL, Marion GM et al (2001) A meta-analysis of the response of soil respiration, net nitrogen mineralization, and aboveground plant growth to experimental ecosystem warming. Oecologia 126:543–562

Sala OE, Chapin FS, Armesto JJ et al (2000) Global biodiversity scenarios for the year 2100. Science 287:1770–1774PubMed

Shannon CE (1948) A mathematical theory of communication. Bell Syst Tech J 27:379–423

Sheldon AL (1969) Equitability indices: dependence on the species count. Ecology 50:466–467

Simpson EH (1949) Measurement of diversity. Nature 163(4148):688

Stanisci A, Pelino G, Blasi C (2005) Vascular plant diversity and climate change in the alpine belt of the central Apennines (Italy). Biodivers Conserv 14:1301–1318

Stanisci A, Frate L, Morra di Cella U et al (2014) Short-term signals of climate change in Italian summit vegetation: observations at two GLORIA sites. Plant Biosystems 150:227–235

Steinbauer MJ, Grytnes JA, Jurasinski G (2018) Accelerated increase in plant species richness on mountain summits is linked to warming. Nature 556:231–234PubMed

Theurillat JP, Guisan A (2001) Potential impact of climate change on vegetation in the European Alps: a review. Clim Change 50:77–109

Thomas HJD, Myers-Smith IH, Bjorkman AD et al (2019) Traditional plant functional types explain variation in economic but not size-related traits across the tundra biome. Glob Ecol Biogeogr 28:78–95PubMed

Thompson DBA, MacDonald AJ, Marsden JH, Galbraith CA (1995) Upland heather moorland in Great Britain: a review of international importance, vegetation change and some objectives for nature conservation. Biol Conserv 71:163–178

Tomaselli M (1994) The vegetation of summit rock faces, talus slopes and grasslands in the northern Apennines. Fitosociologia 26:35–50

Tomaselli M, Rossi G (1994) Phytosociology and ecology of Caricion curvulae vegetation in the northern Apennines (N Italy). Fitosociologia 26:51–62

Tomaselli M, Rossi G, Dowgiallo G (2000) Phytosociology and ecology of the Festuca puccinellii-grasslands in the northern Apennines (N-Italy). Bot Helv 110:125–149

Tóthmérész B (1998) On the characterization of scale-dependent diversity. Abstr Bot 22:149–156

Tutin TG, Heywood VH, Burges NA, Moore DM, Valentine DH, Walters SM, Webb DA (1964) Flora Europaea. Univ. Press, Cambridge

Van der Maarel E (1979) Transformation of cover-abundance values in phytosociology and its effect on community similarity. Vegetatio 39:97–114

Vittoz P, Randin C, Dutoit A, Bonnet F, Hegg O (2009) Low impact of climate change on subalpine grasslands in the Swiss Northern Alps. Glob Change Biol 15:209–220

Vittoz P, Bayfield N, Brooker R et al (2010a) Reproducibility of species lists, visual cover estimates and frequency methods for recording high-mountain vegetation. J Veg Sci 21:1035–1047

Vittoz P, Camenisch M, Mayor R, Miserere L, Vust M, Theurillat JP (2010b) Subalpine-nival gradient of species richness for vascular plants, bryophytes and lichens in the Swiss Inner Alps. Bot Helv 120(2):139–149

Walker MD, Wahren CH, Hollister RD et al (2006) Plant community responses to experimental warming across the tundra biome. Proc Natl Acad Sci USA 103:1342–1346PubMed

Walther GR, Beißner S, Burga CA (2005) Trends in the upward shift of alpine plants. J Veg Sci 16:541–548

Windmaißer T, Reisch C (2013) Long-term study of an alpine grassland:local constancy in times of global change. Alp Bot 123:1–6

Winkler M, Lamprecht A, Steinbauer K et al (2016) The rich sides of mountain summits—a pan-European view on aspect preferences of alpine plants. J Biogeogr 43:2261–2273

Wipf S, Stöckli V, Herz K, Rixen C (2013) The oldest monitoring site of the Alps revisited: accelerated increase in plant species richness on Piz Linard summit since 1835. Plant Ecol Divers 6:447–455

Wullschleger SD, Epstein HE, Box EO et al (2014) Plant functional types in Earth system models: past experiences and future directions for application of dynamic vegetation models in high-latitude ecosystems. Ann Bot 114:1–16PubMedPubMedCentral

Titel: Could plant diversity metrics explain climate-driven vegetation changes on mountain summits of the GLORIA network?
verfasst von: Francesco Porro
Marcello Tomaselli
Thomas Abeli
Maurizia Gandini
Matteo Gualmini
Simone Orsenigo
Alessandro Petraglia
Graziano Rossi
Michele Carbognani
Publikationsdatum: 23.08.2019
Verlag: Springer Netherlands
Erschienen in: Biodiversity and Conservation / Ausgabe 13/2019
Print ISSN: 0960-3115
Elektronische ISSN: 1572-9710
DOI: https://doi.org/10.1007/s10531-019-01837-1

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