https://m2.mtmt.hu/hun2024-03-28 11:00JournalArticle23664004ADMIN_APPROVEDtrue02018-10-01T21:57:54.000+0000false136640042018-10-06T20:30:27.622+00002018-10-01T21:57:54.000+00002014-02-04T09:52:58.000+0000true10039066CzövekGabriella
/api/admin/10039066
Admintrue100390662018-10-21T00:34:20.721+00002018-10-21T00:34:20.721+00002014-03-11T12:03:26.000+0000true10039066CzövekGabriella
/api/admin/10039066
Admintrue10039066falsefalsetrue2424
/api/publicationtype/24
PublicationType1true24JournalArticleGraham, JHThe humpbacked species richness-curve: A contingent rule for community ecologytruefalse
/api/journal/10052605
REVIEWEDtruefalse10052605true10052605false1687-97081687-9716JournalFOREIGN86842686842620112014(Czövek Gabriella (admin5 SZTE TTIK Ökológ...); 2014.02.04. 10:51:36)truefalsefalse00000000000011Margalef, R., On certain unifying principles in ecology (1963) American Naturalist, 97, pp. 357-374;
Lawton, J.H., Are there general laws in ecology? (1999) Oikos, 84 (2), pp. 177-192;
Morin, P.J., Fox, J.W., Diversity in the deep blue sea (2004) Nature, 429 (6994), pp. 813-814. , DOI 10.1038/429813a;
Scheiner, S.M., Willig, M.R., A general theory of ecology (2008) Theoretical Ecology, 1 (1), pp. 21-28. , DOI 10.1007/s12080-007-0002-0;
Hutchinson, G.E., Homage to Santa Rosalia or why are there so many kinds of animals? (1959) American Naturalist, 93, pp. 145-159;
Abrams, P.A., Monotonic or unimodal diversity-productivity gradients: What does competition theory predict? (1995) Ecology, 76 (7), pp. 2019-2027;
Whittaker, R.J., Meta-analyses and mega-mistakes: Calling time on meta-analysis of the species richness-productivity relationship (2010) Ecology, 91 (9), pp. 2522-2533;
Strong, D.R., Evidence and inference: Shapes of species richness-productivity curves (2010) Ecology, 91 (9), pp. 2534-2535;
Mittelbach, G.G., Understanding species richness-productivity relationships: The importance of meta-analyses (2010) Ecology, 91 (9), pp. 2540-2544;
Mackey, R.L., Currie, D.J., The diversity-disturbance relationship: Is it generally strong and peaked? (2001) Ecology, 82 (12), pp. 3479-3492;
Roxburgh, S.H., Shea, K., Wilson, J.B., The intermediate disturbance hypothesis: Patch dynamics and mechanisms of species coexistence (2004) Ecology, 85 (2), pp. 359-371;
Scheiner, S.M., Jones, S., Diversity, productivity and scale in Wisconsin vegetation (2002) Evolutionary Ecology Research, 4 (8), pp. 1097-1117;
Gardezi, T., Da Silva, J., Diversity in relation to body size in mammals: A comparative study (1999) American Naturalist, 153 (1), pp. 110-123. , DOI 10.1086/303150;
Huston, M., (1994) Biological Diversity: The Coexistence of Species on Changing Landscapes, , Cambridge, UK Cambridge Unversity Press;
Grime, J.P., Control of species density in herbaceous vegetation (1973) Journal of Environmental Management, 1, pp. 151-167;
Emlen, J.M., (1973) Ecology: An Evolutionary Approach, , Reading, Mass, USA Addison-Wesley;
Horn, H.S., Cody, M.L., Diamond, J.M., Markovian properties of forest succession (1975) Ecology and Evolution of Communities, pp. 196-211. , Cambridge, Mass, USA Belknap Press, Harvard University;
Connell, J.H., Diversity in tropical rain forests and coral reefs (1978) Science, 199 (4335), pp. 1302-1310;
Barradas, I., Cohen, J.E., Disturbances allow coexistence of competing species (1994) Journal of Mathematical Biology, 32, pp. 663-676;
Chesson, P., Mechanisms of maintenance of species diversity (2000) Annual Review of Ecology and Systematics, 31, pp. 343-366. , DOI 10.1146/annurev.ecolsys.31.1.343;
Bongers, F., Poorter, L., Hawthorne, W.D., Sheil, D., The intermediate disturbance hypothesis applies to tropical forests, but disturbance contributes little to tree diversity (2009) Ecology Letters, 12 (8), pp. 798-805;
Fox, J.F., Intermediate levels of soil disturbance maximize alpine plant diversity (1981) Nature, 293 (5833), pp. 564-565;
Tanner, J.E., Hughes, T.P., Connell, J.H., Species coexistence, keystone species, and succession: A sensitivity analysis (1994) Ecology, 75 (8), pp. 2204-2219;
Collins, S.L., Glenn, S.M., Intermediate disturbance and its relationship to within- and between-patch dynamics (1997) New Zealand Journal of Ecology, 21 (1), pp. 103-110;
Fuentes, E.R., Jaksic, F.M., The hump-backed species diversity curve: Why has it not been found among land animals? (1988) Oikos, 53 (1), pp. 139-143;
Cowie, P.R., Widdicombe, S., Austen, M.C., Effects of physical disturbance on an estuarine intertidal community: Field and mesocosm results compared (2000) Marine Biology, 136 (3), pp. 485-495;
Huxham, M., Roberts, I., Bremner, J., A field test of the intermediate disturbance hypothesis in the soft-bottom intertidal (2000) International Review of Hydrobiology, 85 (4), pp. 379-394;
Garstecki, T., Wickham, S.A., The response of benthic rhizopods to sediment disturbance does not support the intermediate disturbance hypothesis (2003) Oikos, 103 (3), pp. 528-536. , DOI 10.1034/j.1600-0706.2003.12421.x;
MacArthur, R.H., MacArthur, J.W., On bird species diversity (1961) Ecology, 42, pp. 594-598;
MacArthur, R.H., (1984) Geographical Ecology: Patterns in the Distribution of Species, , Princeton, NJ, USA Princeton University Press;
Pianka, E.R., (1999) Evolutionary Ecology, , 6th San Francisco, Calif, USA Benjamin-Cummings;
Graham, J.H., Krzysik, A.J., Kovacic, D.A., Duda, J.J., Freeman, D.C., Emlen, J.M., Zak, J.C., Balbach, H.E., Species richness, equitability, and abundance of ants in disturbed landscapes (2009) Ecological Indicators, 9 (5), pp. 866-877;
Graham, J.H., Krzysik, A.J., Kovacic, D.A., Duda, J.J., Freeman, D.C., Emlen, J.M., Zak, J.C., Balbach, H.E., Ant community composition across a gradient of disturbed military landscapes at Fort Benning, Georgia (2008) Southeastern Naturalist, 7 (3), pp. 429-448;
Guerry, A.D., (2006) Grazing, Nutrients, and Marine Benthic Algae: Insights into the Drivers and Protection of Diversity, , Ph.D. Thesis Corvallis, Ore, USA Department of Zoology, Oregon State University;
Paine, R.T., Food web complexity and species diversity (1966) American Naturalist, 100, pp. 65-75;
Paine, R.T., Vadas, R.L., The effects of grazing by sea urchins, Strongylocentrotus spp., on benthic algal populations (1969) Limnology and Oceanography, 14, pp. 710-719;
Lubchenco, J., Plant species diversity in a marine intertidal community: Importance of herbivore food preference and algal competitive abilities (1978) American Naturalist, 112, pp. 23-39;
Lubchenco, J., Gaines, S.D., A unified approach to marine plant-herbivore interactions. I. populations and communities (1981) Annual Review of Ecology and Systematics, 12, pp. 405-437;
Rosenzweig, M.L., Abramsky, Z., Ricklefs, R.E., Schluter, D., How are diversity and productivity related (1993) Species Diversity in Ecological Communities: Historical and Geographical Perspectives, pp. 52-65. , Chicago, Ill, USA University of Chicago Press;
Mittelbach, G.G., Steiner, C.F., Scheiner, S.M., Gross, K.L., Reynolds, H.L., Waide, R.B., Willig, M.R., Gough, L., What is the observed relationship between species richness and productivity? (2001) Ecology, 82 (9), pp. 2381-2396;
Waide, R.B., Willig, M.R., Steiner, C.F., Mittelbach, G., Gough, L., Dodson, S.I., Juday, G.P., Parmenter, R., The relationship between productivity and species richness (1999) Annual Review of Ecology and Systematics, 30, pp. 257-300. , DOI 10.1146/annurev.ecolsys.30.1.257;
Box, E.O., Holben, B.N., Kalb, V., Accuracy of the AVHRR vegetation index as a predictor of biomass, primary productivity and net CO 2 flux (1989) Vegetatio, 80 (1), pp. 71-89;
Whittaker, R.J., In the dragon's den: A response to the meta-analysis forum contributions (2010) Ecology, 91 (9), pp. 2568-2571;
Tilman, D., Wedin, D., Knops, J., Productivity and sustainability influenced by biodiversity in grassland ecosystems (1996) Nature, 379 (6567), pp. 718-720;
Fukami, T., Morin, P.J., Productivity-biodiversity relationships depend on the history of community assembly (2003) Nature, 424 (6947), pp. 423-426. , DOI 10.1038/nature01785;
Smith, V.H., Microbial diversity-productivity relationships in aquatic ecosystems (2007) FEMS Microbiology Ecology, 62 (2), pp. 181-186. , DOI 10.1111/j.1574-6941.2007.00381.x;
Hooper, D.U., Chapin III, F.S., Ewel, J.J., Hector, A., Inchausti, P., Lavorel, S., Lawton, J.H., Wardle, D.A., Effects of biodiversity on ecosystem functioning: A consensus of current knowledge (2005) Ecological Monographs, 75 (1), pp. 3-35;
Ptacnik, R., Solimini, A.G., Andersen, T., Tamminen, T., Brettum, P., Lepisto, L., Willen, E., Rekolainen, S., Diversity predicts stability and resource use efficiency in natural phytoplankton communities (2008) Proceedings of the National Academy of Sciences of the United States of America, 105 (13), pp. 5134-5138. , http://www.pnas.org/cgi/reprint/105/13/5134, DOI 10.1073/pnas.0708328105;
Huston, M.A., Hidden treatments in ecological experiments: Re-evaluating the ecosystem function of biodiversity (1997) Oecologia, 110 (4), pp. 449-460;
Wimp, G.M., Murphy, S.M., Finke, D.L., Huberty, A.F., Denno, R.F., Increased primary production shifts the structure and composition of a terrestrial arthropod community (2010) Ecology, 91 (11), pp. 3303-3311;
Gross, K., Cardinale, B.J., Does species richness drive community production or vice versa Reconciling historical and contemporary paradigms in competitive communities (2007) American Naturalist, 170 (2), pp. 207-220. , DOI 10.1086/518950;
Cardinale, B.J., Bennett, D.M., Nelson, C.E., Gross, K., Does productivity drive diversity or vice versa A test of the multivariate productivity-diversity hypothesis in streams (2009) Ecology, 90 (5), pp. 1227-1241;
Odum, E.P., (1971) Fundamentals of Ecology, , 3rd Philadelphia, Pa, USA W. B. Saunders;
Graham, J.H., Species diversity of fishes in naturally acidic lakes in New Jersey (1993) Transactions of the American Fisheries Society, 122 (6), pp. 1043-1057;
Wetzel, R.G., Goldman, C.R., Nutritional aspects of algal productivity in marl lakes with particular reference to enrichment bioassays and their interpretation (1966) Primary Productivity in Aquatic Environments, pp. 137-157. , Berkeley, Calif, USA University of California Press;
Zapata, F.A., Gaston, K.J., Chown, S.L., Mid-domain models of species richness gradients: Assumptions, methods and evidence (2003) Journal of Animal Ecology, 72 (4), pp. 677-690. , DOI 10.1046/j.1365-2656.2003.00741.x;
Rahbek, C., The elevational gradient of species richness: A uniform pattern? (1995) Ecography, 18 (2), pp. 200-205;
Kessler, M., Herzog, S.K., Fjeldsa, J., Bach, K., Species richness and endemism of plant and bird communities along two gradients of elevation, humidity and land use in the Bolivian Andes (2001) Diversity and Distributions, 7 (1-2), pp. 61-77. , DOI 10.1046/j.1472-4642.2001.00097.x;
Bruun, H.H., Moen, J., Virtanen, R., Grytnes, J.A., Oksanen, L., Angerbjrn, A., Effects of altitude and topography on species richness of vascular plants, bryophytes and lichens in alpine communities (2006) Journal of Vegetation Science, 17 (1), pp. 37-46;
Brehm, G., Colwell, R.K., Kluge, J., The role of environment and mid-domain effect on moth species richness along a tropical elevational gradient (2007) Global Ecology and Biogeography, 16 (2), pp. 205-219;
Sanders, N.J., Elevational gradients in ant species richness: Area, geometry, and Rapoport's rule (2002) Ecography, 25 (1), pp. 25-32. , DOI 10.1034/j.1600-0587.2002.250104.x;
Sanders, N.J., Lessard, J.-P., Fitzpatrick, M.C., Dunn, R.R., Temperature, but not productivity or geometry, predicts elevational diversity gradients in ants across spatial grains (2007) Global Ecology and Biogeography, 16 (5), pp. 640-649. , DOI 10.1111/j.1466-8238.2007.00316.x;
Lee, P.-F., Ding, T.-S., Hsu, F.-H., Geng, S., Breeding bird species richness in Taiwan: Distribution on gradients of elevation, primary productivity and urbanization (2004) Journal of Biogeography, 31 (2), pp. 307-314;
McCain, C.M., The mid-domain effect applied to elevational gradients: Species richness of small mammals in Costa Rica (2004) Journal of Biogeography, 31 (1), pp. 19-31;
Colwell, R.K., Rahbek, C., Gotelli, N.J., The mid-domain effect and species richness patterns: What have we learned so far? (2004) The American Naturalist, 163 (3), pp. 1-E23;
Horn, H.S., The ecology of secondary succession (1974) Annual Review of Ecology and Systematics, 5, pp. 25-37;
Nicholson, S.A., Monk, C.D., Plant species diversity in old-field succession on the Georgia Piedmont (1974) Ecology, 55, pp. 1075-1085;
Inouye, R.S., Huntly, N.J., Tilman, D., Tester, J.R., Stillwell, M., Zinnel, K.C., Old-field succession on a Minnesota sand plain (1987) Ecology, 68 (1), pp. 12-26;
Boomsma, J.J., Van Loon, A.J., Structure and diversity of ant communities in successive coastal dune valleys (1982) Journal of Animal Ecology, 51 (3), pp. 957-974;
Willig, M.R., Kaufman, D.M., Stevens, R.D., Latitudinal Gradients of Biodiversity: Pattern, Process, Scale, and Synthesis (2003) Annual Review of Ecology, Evolution, and Systematics, 34, pp. 273-309;
Janzen, D.H., The peak in North American ichneumonid species richness lies between 38 and 42 North (1981) Ecology, 62, pp. 532-537;
Sime, K.R., Brower, A.V.Z., Explaining the latitudinal gradient anomaly in ichneumonid species richness: Evidence from butterflies (1998) Journal of Animal Ecology, 67 (3), pp. 387-399. , DOI 10.1046/j.1365-2656.1998.00198.x;
Levin, S.A., The problem of pattern and scale in ecology (1992) Ecology, 73 (6), pp. 1943-1967;
Peters, D.P.C., Bestelmeyer, B.T., Turner, M.G., Cross-scale interactions and changing pattern-process relationships: Consequences for system dynamics (2007) Ecosystems, 10 (5), pp. 790-796. , DOI 10.1007/s10021-007-9055-6;
Leibold, M.A., Holyoak, M., Mouquet, N., Amarasekare, P., Chase, J.M., Hoopes, M.F., Holt, R.D., Gonzalez, A., The metacommunity concept: A framework for multi-scale community ecology (2004) Ecology Letters, 7 (7), pp. 601-613. , DOI 10.1111/j.1461-0248.2004.00608.x;
Whittaker, R.H., Evolution and measurement of species diversity (1972) Taxon, 21, pp. 213-251;
Tuomisto, H., A diversity of beta diversities: Straightening up a concept gone awrypart 1. Defining beta diversity as a function of alpha and gamma diversity (2010) Ecography, 33 (1), pp. 2-22;
Tuomisto, H., A diversity of beta diversities: Straightening up a concept gone awrypart 2. Quantifying beta diversity and related phenomena (2010) Ecography, 33 (1), pp. 23-45;
Steiner, C.F., Leibold, M.A., Cyclic assembly trajectories and scale-dependent productivity-diversity relationships (2004) Ecology, 85 (1), pp. 107-113;
McKnight, M.W., White, P.S., McDonald, R.I., Lamoreux, J.F., Sechrest, W., Ridgely, R.S., Stuart, S.N., Putting beta-diversity on the map: Broad-scale congruence and coincidence in the extremes (2007) PLoS Biology, 5 (10), pp. 2424-2432. , http://biology.plosjournals.org/archive/1545-7885/5/10/pdf/10. 1371_journal.pbio.0050272-L.pdf, DOI 10.1371/journal.pbio.0050272;
Welsh Jr., H.H., Hodgson, G.R., Duda, J.J., Emlen, J.M., Faunal assemblages and multi-scale habitat patterns in headwater tributaries of the South Fork Trinity Riveran unregulated river embedded within a multiple-use landscape (2010) Animal Biodiversity and Conservation, 33 (1), pp. 63-87;
Rahbek, C., The role of spatial scale and the perception of large-scale species-richness patterns (2005) Ecology Letters, 8 (2), pp. 224-239. , DOI 10.1111/j.1461-0248.2004.00701.x;
Scheiner, S.M., Cox, S.B., Willig, M., Mittelbach, G.G., Osenberg, C., Kaspari, M., Species richness, species-area curves and Simpson's paradox (2000) Evolutionary Ecology Research, 2 (6), pp. 791-802;
Oksanen, J., Is the humped relationship between species richness and biomass an artefact due to plot size (1996) Journal of Ecology, 84 (2), pp. 293-295;
Chase, J.M., Leibold, M.A., Spatial scale dictates the productivity-biodiversity relationship (2002) Nature, 416 (6879), pp. 427-430. , DOI 10.1038/416427a;
Chalcraft, D.R., Williams, J.W., Smith, M.D., Willig, M.R., Scale dependence in the species-richness-productivity relationship: The role of species turnover (2004) Ecology, 85 (10), pp. 2701-2708;
Rosenzweig, M.L., (1995) Species Diversity in Space and Time, , Cambridge, UK Cambridge University Press;
Sousa, W.P., Disturbance in marine intertidal boulder fields: The nonequilibrium maintenance of species diversity (1979) Ecology, 60, pp. 1225-1239;
McClanahan, T.R., Shafir, S.H., Causes and consequences of sea urchin abundance and diversity in Kenyan coral reef lagoons (1990) Oecologia, 83 (3), pp. 362-370;
Rogers, C.S., Hurricanes and coral reefs: The intermediate disturbance hypothesis revisited (1993) Coral Reefs, 12 (3-4), pp. 127-137;
Connell, J.H., Hughes, T.P., Wallace, C.C., A 30-year study of coral abundance, recruitment, and disturbance at several scales in space and time (1997) Ecological Monographs, 67 (4), pp. 461-488;
May, R.M., Thresholds and breakpoints in ecosystems with a multiplicity of stable states (1977) Nature, 269 (5628), pp. 471-477;
Schroder, A., Persson, L., De Roos, A.M., Direct experimental evidence for alternative stable states: A review (2005) Oikos, 110 (1), pp. 3-19. , DOI 10.1111/j.0030-1299.2005.13962.x;
Scheffer, M., Hosper, S.H., Meijer, M.-L., Moss, B., Jeppesen, E., Alternative equilibria in shallow lakes (1993) Trends in Ecology & Evolution, 8 (8), pp. 275-279;
Kautsky, L., Kautsky, H., Algal species diversity and dominance along gradients of stress and disturbance in marine environments (1989) Vegetatio, 83 (1-2), pp. 259-267;
Jara, V.C., Miyamoto, J.H.S., Da Gama, B.A.P., Molis, M., Wahl, M., Pereira, R.C., Limited evidence of interactive disturbance and nutrient effects on the diversity of macrobenthic assemblages (2006) Marine Ecology Progress Series, 308, pp. 37-48;
Kondoh, M., Unifying the relationships of species richness to productivity and disturbance (2001) Proceedings of the Royal Society B: Biological Sciences, 268 (1464), pp. 269-271. , DOI 10.1098/rspb.2000.1384;
Huston, M., A general hypothesis of species diversity (1979) American Naturalist, 113, pp. 81-101;
Worm, B., Lotze, H.K., Hillebrand, H., Sommer, U., Consumer versus resource control of species diversity and ecosystem functioning (2002) Nature, 417 (6891), pp. 848-851. , DOI 10.1038/nature00830;
Svensson, J.R., Lindegarth, M., Siccha, M., Lenz, M., Molis, M., Wahl, M., Pavia, H., Maximum species richness at intermediate frequencies of disturbance: Consistency among levels of productivity (2007) Ecology, 88 (4), pp. 830-838. , http://www.esajournals.org/pdfserv/i0012-9658-088-04-0830.pdf, DOI 10.1890/06-0976;
Witman, J.D., Etter, R.J., Smith, F., The relationship between regional and local species diversity in marine benthic communities: A global perspective (2004) Proceedings of the National Academy of Sciences of the United States of America, 101 (44), pp. 15664-15669. , DOI 10.1073/pnas.0404300101;
Karlson, R.H., Cornell, H.V., Hughes, T.P., Coral communities are regionally enriched along an oceanic biodiversity gradient (2004) Nature, 429 (6994), pp. 867-870. , DOI 10.1038/nature02685;
Harrison, S., Safford, H.D., Grace, J.B., Viers, J.H., Davies, K.F., Regional and local species richness in an insular environment: Serpentine plants in California (2006) Ecological Monographs, 76 (1), pp. 41-56;
Hutchinson, G.E., The paradox of the plankton (1961) American Naturalist, 95, pp. 137-145;
Irigoien, X., Hulsman, J., Harris, R.P., Global biodiversity patterns of marine phytoplankton and zooplankton (2004) Nature, 429 (6994), pp. 863-867. , DOI 10.1038/nature02593;
Dodson, S.I., Arnott, S.E., Cottingham, K.L., The relationship in lake communities between primary productivity and species richness (2000) Ecology, 81 (10), pp. 2662-2679;
Cohen, A.S., Bills, R., Cocquyt, C.Z., Caljon, A.G., The impact of sediment pollution on biodiversity in Lake Tanganyika (1993) Conservation Biology, 7 (3), pp. 667-677;
MacArthur, R.H., Wilson, E.O., (1967) The Theory of Island Biogeography, , Princeton, NJ, USA Princeton University Press;
Eadie, J.M., Hurly, T.A., Montgomerie, R.D., Teather, K.L., Lakes and rivers as islands: Species-area relationships in the fish faunas of Ontario (1986) Environmental Biology of Fishes, 15 (2), pp. 81-89;
Tews, J., Brose, U., Grimm, V., Tielborger, K., Wichmann, M.C., Schwager, M., Jeltsch, F., Animal species diversity driven by habitat heterogeneity/diversity: The importance of keystone structures (2004) Journal of Biogeography, 31 (1), pp. 79-92;
Tilman, D., Pacala, S., Ricklefs, R.E., Schluter, D., The maintenance of species richness in plant communities (1993) Species Diversity in Ecological Communities, pp. 13-25. , Chicago, Ill, USA University of Chicago Press;
Gillman, L.N., Wright, S.D., The influence of productivity on the species richness of plants: A critical assessment (2006) Ecology, 87 (5), pp. 1234-1243;
Partel, M., Laanisto, L., Zobel, M., Contrasting plant productivity-diversity relationships across latitude: The role of evolutionary history (2007) Ecology, 88 (5), pp. 1091-1097. , http://www.esajournals.org/archive/0012-9658/88/5/pdf/ i0012-9658-88-5-1091.pdf, DOI 10.1890/06-0997;
Punttila, P., Haila, Y., Pajunen, T., Tukia, H., Colonisation of clearcut forests by ants in the southern Finnish taiga: A quantitative survey (1991) Oikos, 61 (2), pp. 250-262;
Hlldobler, B., Wilson, E.O., (1990) The Ants, , Cambridge, Mass, USA Belknap Press, Harvard University;
McGlynn, T.P., Weiser, M.D., Dunn, R.R., More individuals but fewer species: Testing the 'more individuals hypothesis' in a diverse tropical fauna (2010) Biology Letters, 6 (4), pp. 490-493;
Andersen, A.N., Regulation of 'momentary' diversity by dominant species in exceptionally rich ant communities of the Australian seasonal tropics (1992) American Naturalist, 140 (3), pp. 401-420. , DOI 10.1086/285419;
Majer, J.D., Recolonization by ants of rehabilitated mineral sand mines on North Stradbroke Island, Queensland, with particular reference to seed removal (1985) Australian Journal of Ecology, 10 (1), pp. 31-48;
Gallé, L., Structure and succession of ant assemblages in a north European sand dune area (1991) Holarctic Ecology, 14 (1), pp. 31-37;
Fox, B.J., Archer, E., Fox, M.D., Di Castri, F., Floret, C., Rambal, S., Roy, J., Ant communities along a moisture gradient (1988) Proceedings of the 5th International Conference on Mediterranean Ecosystems, pp. 661-667. , Paris, France International Union of Biological Sciences;
Siemann, E., Tilman, D., Haarstad, J., Ritchie, M., Experimental tests of the dependence of arthropod diversity on plant diversity (1998) American Naturalist, 152 (5), pp. 738-750. , DOI 10.1086/286204;
Haddad, N.M., Tilman, D., Haarstad, J., Ritchie, M., Knops, J.M.H., Contrasting effects of plant richness and composition on insect communities: A field experiment (2001) American Naturalist, 158 (1), pp. 17-35. , DOI 10.1086/320866;
Haddad, N.M., Crutsinger, G.M., Gross, K., Haarstad, J., Tilman, D., Plant diversity and the stability of foodwebs (2011) Ecology Letters, 14 (1), pp. 42-46;
Novotny, V., Drozd, P., Miller, S.E., Kulfan, M., Janda, M., Basset, Y., Weiblen, G.D., Why are there so many species of herbivorous insects in tropical rainforests? (2006) Science, 313 (5790), pp. 1115-1118. , DOI 10.1126/science.1129237;
Donoso, D.A., Johnston, M.K., Kaspari, M., Trees as templates for tropical litter arthropod diversity (2010) Oecologia, 164 (1), pp. 201-211;
Szentkiralyi, F., Kozar, F., How many species are there in apple insect communities?: Testing the resource diversity and intermediate disturbance hypotheses (1991) Ecological Entomology, 16 (4), pp. 491-503;
Young, T.P., Stubblefield, C.H., Isbell, L.A., Ants on swollen-thorn acacias: Species coexistence in a simple system (1997) Oecologia, 109 (1), pp. 98-107;
Greenslade, P.J.M., Greenslade, P., Some effects of vegetation cover and disturbance on a tropical ant fauna (1977) Insectes Sociaux, 24 (2), pp. 163-182;
Jrdn, C., Gallé, L., Margczi, K., Ant assemblage composition in a successional Hungarian sand dune area (1993) Tiscia, 27, pp. 9-15;
Rambo, J.L., Faeth, S.H., Effect of vertebrate grazing on plant and insect community structure (1999) Conservation Biology, 13 (5), pp. 1047-1054. , DOI 10.1046/j.1523-1739.1999.98504.x;
Floren, A., Freking, A., Biehl, M., Eduard Linsenmair, K., Anthropogenic disturbance changes the structure of arboreal tropical ant communities (2001) Ecography, 24 (5), pp. 547-554;
Abensperg-Traun, M., Smith, G.T., Arnold, G.W., Steven, D.E., The effects of habitat fragmentation and livestock-grazing on animal communities in remnants of gimlet Eucalyptus salubris woodland in the Western Australian wheatbelt. I. Arthropods (1996) Journal of Applied Ecology, 33 (6), pp. 1281-1301;
Huisman, J., Olff, H., Fresco, L.F.M., A hierarchical set of models for species response analysis (1993) Journal of Vegetation Science, 4 (1), pp. 37-46;
Oksanen, J., Minchin, P.R., Continuum theory revisited: What shape are species responses along ecological gradients? (2002) Ecological Modelling, 157 (2-3), pp. 119-129. , DOI 10.1016/S0304-3800(02)00190-4, PII S0304380002001904;
Cleveland, W.S., Robust locally weighted regression and smoothing scatterplots (1979) Journal of the American Statistical Association, 74, pp. 829-836;
Graham, J.H., Hughie, H.H., Jones, S., Wrinn, K., Krzysik, A.J., Duda, J.J., Freeman, D.C., Balbach, H., Habitat disturbance and the diversity and abundance of ants (Formicidae) in the Southeastern Fall-Line Sandhills (2004) Journal of Insect Science, 4 (30), pp. 1-15;
Felsenstein, J., Phylogenies and the comparative method (1985) American Naturalist, 125 (1), pp. 1-15;
Orme, C.D.L., Quicke, D.L.J., Cook, J.M., Purvis, A., Body size does not predict species richness among the metazoan phyla (2002) Journal of Evolutionary Biology, 15 (2), pp. 235-247. , DOI 10.1046/j.1420-9101.2002.00379.x;
Olden, J.D., Hogan, Z.S., Zanden, M.J.V., Small fish, big fish, red fish, blue fish: Size-biased extinction risk of the world's freshwater and marine fishes (2007) Global Ecology and Biogeography, 16 (6), pp. 694-701. , DOI 10.1111/j.1466-8238.2007.00337.x;
Webb, C.O., Ackerly, D.D., McPeek, M.A., Donoghue, M.J., Phylogenies and community ecology (2002) Annual Review of Ecology and Systematics, 33, pp. 475-505. , DOI 10.1146/annurev.ecolsys.33.010802.150448;
Clarke, K.R., Warwick, R.M., A taxonomic distinctness index and its statistical properties (1998) Journal of Applied Ecology, 35 (4), pp. 523-531;
Warwick, R.M., Clarke, K.R., New 'biodiversity' measures reveal a decrease in taxonomic distinctness with increasing stress (1995) Marine Ecology Progress Series, 129 (1-3), pp. 301-305;
Warwick, R.M., Clarke, K.R., Taxonomic distinctness and environmental assessment (1998) Journal of Applied Ecology, 35 (4), pp. 532-543;
Heino, J., Soininen, J., Lappalainen, J., Virtanen, R., The relationship between species richness and taxonomic distinctness in freshwater organisms (2005) Limnology and Oceanography, 50 (3), pp. 978-986;
Oksanen, L., Oksanen, T., The logic and realism of the hypothesis of exploitation ecosystems (2000) American Naturalist, 155 (6), pp. 703-723. , DOI 10.1086/303354;
Hairston, N.G., Smith, F.E., Slobodkin, L.B., Community structure, population control, and competition (1960) American Naturalist, 94, pp. 421-425;
Oksanen, L., Fretwell, S.D., Arruda, J., Niemel, P., Exploitation ecosystems in gradients of primary productivity (1981) American Naturalist, 118, pp. 240-261;
Svensson, J.R., Lindegarth, M., Pavia, H., Equal rates of disturbance cause different patterns of diversity (2009) Ecology, 90 (2), pp. 496-505;
Svensson, J.R., Lindegarth, M., Pavia, H., Physical and biological disturbances interact differently with productivity: Effects on floral and faunal richness (2010) Ecology, 91 (10), pp. 3069-3080;
Shea, K., Roxburgh, S.H., Rauschert, E.S.J., Moving from pattern to process: Coexistence mechanisms under intermediate disturbance regimes (2004) Ecology Letters, 7 (6), pp. 491-508. , DOI 10.1111/j.1461-0248.2004.00600.xfalsefalsefalsefalse2014-03-11T12:03:26.000+00002014-02-04T09:58:20.000+000016020falseLanguage10002
/api/language/10002
AngolEnglishtrue2truePersonAuthorship32216838
/api/authorship/32216838
10.0truefalseGrahamJHtruefalsefalseAuthorshipType1
/api/authorshiptype/1
0true0truefalse51856689truePersonAuthorship32216839
/api/authorship/32216839
20.0falsetrueDudaJJtruefalsefalseAuthorshipType1
/api/authorshiptype/1
0true0truefalse51856688truePublicationIdentifier7246243
/api/publicationidentifier/7246243
10.1155/2011/868426false5130057truePublicationIdentifier7246242
/api/publicationidentifier/7246242
80053514342false5130056true
/api/publication/23664004
<div class="JournalArticle Publication short-list"> <div class="authors"> <span class="author-name" >Graham, JH </span> ; <span class="author-name" >Duda, JJ </span> </div ><div class="title"><a href="/gui2/?mode=browse¶ms=publication;23664004" mtid="23664004" target="_blank">The humpbacked species richness-curve: A contingent rule for community ecology</a></div> <div class="pub-info"><span class="journal-title">INTERNATIONAL JOURNAL OF ECOLOGY</span> <span class="journal-volume"></span> <span class="page"> Paper: 868426 </span> <span class="year">(2011)</span> </div> <div class="pub-end"><div class="identifier-list"> <span class="identifiers"> <span class="id identifier oa_" title=" "> <a style="color: blue" title="10.1155/2011/868426" target="_blank" href="http://dx.doi.org/10.1155/2011/868426">DOI</a> </span> <span class="id identifier oa_" title=" "> <a style="color: blue" title="80053514342" target="_blank" href="http://www.scopus.com/record/display.url?origin=inward&eid=2-s2.0-80053514342">Scopus</a> </span> </span> </div> <span class="short-pub-prop-list"><span class="short-pub-mtid"> Közlemény:23664004 </span> <span class="status-holder"><span class="status-data status-ADMIN_APPROVED"> Admin láttamozott </span></span> <span class="pub-core"> Idéző </span> <span class="pub-type">Folyóiratcikk </span> <span class="citing-count2">Idézett közlemények száma: 1 </span> </span> </div> </div><div class="JournalArticle Publication long-list"> <div class="authors"> <img title="Idézőközlemény" style="float: left" src="/frontend/resources/grid/publication-citation-icon.png"> <div class="autype autype0"> <span class="author-name" >Graham JH </span> ; <span class="author-name" >Duda JJ </span> </div> </div> <div class="title"><a href="/gui2/?mode=browse¶ms=publication;23664004" target="_blank">The humpbacked species richness-curve: A contingent rule for community ecology</a></div> <div><span class="journal-title">INTERNATIONAL JOURNAL OF ECOLOGY</span> <span class="journal-issn">(<a target="_blank" href="https://portal.issn.org/resource/ISSN/1687-9708">1687-9708</a> <a target="_blank" href="https://portal.issn.org/resource/ISSN/1687-9716">1687-9716</a>)</span>: <span class="journal-volume"></span> <span class="page"> Paper 868426. </span> <span class="year">(2011)</span> <br> </span> </div> <div class="pub-footer"> <span class="language" xmlns="http://www.w3.org/1999/html">Nyelv: Angol | </span> <span class="identifiers"> <span class="id identifier oa_" title=" "> <a style="color: blue" title="10.1155/2011/868426" target="_blank" href="http://dx.doi.org/10.1155/2011/868426">DOI</a> </span> <span class="id identifier oa_" title=" "> <a style="color: blue" title="80053514342" target="_blank" href="http://www.scopus.com/record/display.url?origin=inward&eid=2-s2.0-80053514342">Scopus</a> </span> </span> <div class="publication-citation"> <a target="_blank" href="/api/publication?cond=citations.related;eq;23664004&sort=publishedYear,desc&sort=title"> Idézett közlemények száma: 1 </a> </div> <div class="mtid"><span class="long-pub-mtid">Közlemény: 23664004</span> | <span class="status-data status-ADMIN_APPROVED"> Admin láttamozott </span> <span class="oldId">Régi azonosító: 13664004</span> | Idéző | <span class="type-subtype">Folyóiratcikk </span> | Nyilvános </span> | <span class="publication-sourceOfData">Scopus-RIS</span> </div> <div class="lastModified">Utolsó módosítás: 2018.10.01. 23:57 MTMT1 Admin (admin) </div> </div></div>