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Beta diversity

February 16, 2024

In ecology, beta diversity (β-diversity or true beta diversity) is the ratio between regional and local species diversity. The term was introduced by R. H. Whittaker[1] together with the terms alpha diversity (α-diversity) and gamma diversity (γ-diversity). The idea was that the total species diversity in a landscape (γ) is determined by two different things: the mean species diversity at the local level (α) and the differentiation among local sites (β). Other formulations for beta diversity include "absolute species turnover", "Whittaker's species turnover" and "proportional species turnover".[citation needed]

Whittaker proposed several ways of quantifying differentiation, and subsequent generations of ecologists have invented more. As a result, there are now many defined types of beta diversity.[2][3] Some use beta diversity to refer to any of several indices related to compositional heterogeneity.[4][5][6] Confusion is avoided by using distinct names for other formulations.[2][3][7][8][9][10]

Beta diversity as a measure of species turnover overemphasizes the role of rare species as the difference in species composition between two sites or communities is likely reflecting the presence and absence of some rare species in the assemblages. Beta diversity can also be a measure of nestedness, which occurs when species assemblages in species-poor sites are a subset of the assemblages in more species-rich sites.[11] Moreover, pairwise beta diversity are inadequate in building all biodiversity partitions (some partitions in a Venn diagram of 3 or more sites cannot be expressed by alpha and beta diversity). Consequently, some macroecological and community patterns cannot be fully expressed by alpha and beta diversity. Due to these two reasons, a new way of measuring species turnover, coined Zeta diversity (ζ-diversity),[12] has been proposed and used to connect all existing incidence-based biodiversity patterns.

Types edit

Whittaker beta diversity edit

Gamma diversity and alpha diversity can be calculated directly from species inventory data.[2][13] The simplest of Whittaker's original definitions of beta diversity is

β = γ/α

Here gamma diversity is the total species diversity of a landscape and alpha diversity is the mean species diversity per site. Because the limits among local sites and landscapes are diffuse and to some degree subjective, it has been proposed that gamma diversity can be quantified for any inventory dataset and that alpha and beta diversity can be quantified whenever the dataset is divided into subunits. Then gamma diversity is the total species diversity in the dataset and alpha diversity the mean species diversity per subunit. Beta diversity quantifies how many subunits there would be if the total species diversity of the dataset and the mean species diversity per subunit remained the same, but the subunits shared no species.[2][7]

Absolute species turnover edit

Some researchers have preferred to partition gamma diversity into additive rather than multiplicative components.[14][15] Then the beta component of diversity becomes

βA = γ - α

This quantifies how much more species diversity the entire dataset contains than an average subunit within the dataset. This can also be interpreted as the total amount of species turnover among the subunits in the dataset.[2]

When there are two subunits, and presence-absence data are used, this can be calculated with the following equation:

 [16]

where, S1= the total number of species recorded in the first community, S2= the total number of species recorded in the second community, and c= the number of species common to both communities.

Whittaker's species turnover edit

If absolute species turnover is divided by alpha diversity, a measure is obtained that quantifies how many times the species composition changes completely among the subunits of the dataset. This measure was proposed by Whittaker,[17] so it has been called Whittaker's species turnover.[2] It is calculated as

βW = (γ - α)/α = γ/α - 1

When there are two subunits, and presence-absence data are used, this equals the one-complement of the Sørensen similarity index.[2][18]

Proportional species turnover edit

If absolute species turnover is divided by gamma diversity, a measure is obtained that quantifies what proportion of the species diversity in the dataset is not contained in an average subunit.[2] It is calculated as

βP = (γ - α)/γ = 1 - α/γ

When there are two subunits, and presence-absence data are used, this measure as ranged to the interval [0, 1] equals the one-complement of the Jaccard similarity index.[2]

β-diversity patterns edit

 
Grain size changes the relationship between tree beta-diversity and latitude. See Sreekar et al.[19]

Although understanding the change in species composition from local to regional scales (β-diversity) is a central theme in ecology and biogeography, studies often reached different conclusions as to the fundamental patterns in β-diversity. For example, niche compression hypothesis predicted higher β-diversity at lower latitudes.[20][19][21][22][23] Studies comparing natural local sites with human-modified local sites are no different. Kitching et al.[24] sampled moths in primary and logged forests of Danum valley, Borneo to show that β-diversity in primary forests was higher than logged forests. Contrastingly, Berry et al.[25] sampled trees in the same study area to show that β-diversity in logged forests was higher than primary forests. The results of these two studies were completely different from the results of a recent quantitative synthesis,[26] which showed that β-diversity in primary forests were similar to β-diversity in all types of human-modified local sites (secondary forests, plantations, pasture and urban). Therefore, there is a clear lack of consensus on β-diversity patterns among studies. Sreekar et al.[19] suggested that most of these inconsistencies were due to the differences in grain size and/or spatial extent among studies. They showed that spatial scale changes the relationship between β-diversity and latitude.

Diversity partitioning in the geologic past edit

Major diversification events in the geologic past were associated with shifts in the relative contributions of alpha- and beta-diversity (diversity partitioning). Examples include the Cambrian explosion,[27] the great Ordovician biodiversification event,[28] and the recoveries from the end-Permian[29] and end-Triassic[30] mass extinction events. Empirical data from these case studies confirm theoretical predictions that an increasing number of species will increase beta-diversity relative to alpha diversity because of the effects from interspecific competition; yet, alpha diversity may increase again once options for increasing geographic turnover are exhausted.[31]

See also edit

References edit

  1. ^ Whittaker RH (1960). "Vegetation of the Siskiyou Mountains, Oregon and California". Ecological Monographs. 30 (3): 279–338. Bibcode:1960EcoM...30..279W. doi:10.2307/1943563. JSTOR 1943563.
  2. ^ a b c d e f g h i Tuomisto H (2010). "A diversity of beta diversities: straightening up a concept gone awry. Part 1. Defining beta diversity as a function of alpha and gamma diversity". Ecography. 33: 2–22. Bibcode:2010Ecogr..33....2T. doi:10.1111/j.1600-0587.2009.05880.x.
  3. ^ a b Tuomisto H (2010). "A diversity of beta diversities: straightening up a concept gone awry. Part 2. Quantifying beta diversity and related phenomena". Ecography. 33 (1): 23–45. Bibcode:2010Ecogr..33...23T. doi:10.1111/j.1600-0587.2009.06148.x.
  4. ^ Koleff P, Gaston KJ, Lennon JJ (2003). "Measuring beta diversity for presence–absence data". Journal of Animal Ecology. 72 (3): 367–382. Bibcode:2003JAnEc..72..367K. doi:10.1046/j.1365-2656.2003.00710.x.
  5. ^ Anderson MJ, Crist TO, Chase JM, Vellend M, Inouye BD, Freestone AL, et al. (January 2011). "Navigating the multiple meanings of β diversity: a roadmap for the practicing ecologist". Ecology Letters. 14 (1): 19–28. Bibcode:2011EcolL..14...19A. doi:10.1111/j.1461-0248.2010.01552.x. PMID 21070562.
  6. ^ Gorelick R (December 2011). "Commentary: Do we have a consistent terminology for species diversity? The fallacy of true diversity". Oecologia. 167 (4): 885–8, discussion 903–11. Bibcode:2011Oecol.167..885G. doi:10.1007/s00442-011-2124-8. PMID 21947497. S2CID 6244637.
  7. ^ a b Tuomisto, H. 2010. A consistent terminology for quantifying species diversity? Yes, it does exist. Oecologia 4: 853–860. doi:10.1007/s00442-010-1812-0
  8. ^ Jurasinski G, Koch M (December 2011). "Commentary: do we have a consistent terminology for species diversity? We are on the way". Oecologia. 167 (4): 893–902, discussion 903–11. Bibcode:2011Oecol.167..893J. doi:10.1007/s00442-011-2126-6. PMID 21938639. S2CID 24562429.
  9. ^ Moreno CE, Rodríguez P (December 2011). "Commentary: Do we have a consistent terminology for species diversity? Back to basics and toward a unifying framework". Oecologia. 167 (4): 889–92, discussion 903–11. Bibcode:2011Oecol.167..889M. doi:10.1007/s00442-011-2125-7. PMID 21965142. S2CID 8917573.
  10. ^ Tuomisto H (2011). "Commentary: do we have a consistent terminology for species diversity? Yes, if we choose to use it". Oecologia. 167 (4): 903–911. Bibcode:2011Oecol.167..903T. doi:10.1007/s00442-011-2128-4. S2CID 19271108.
  11. ^ Baselga A (January 2010). "Partitioning the turnover and nestedness components of beta diversity". Global Ecology and Biogeography. 19 (1): 134–143. Bibcode:2010GloEB..19..134B. doi:10.1111/j.1466-8238.2009.00490.x. ISSN 1466-8238.
  12. ^ Hui C, McGeoch MA (2014). "Zeta diversity as a concept and metric that unifies incidence-based biodiversity patterns". American Naturalist. 184 (5): 684–694. doi:10.1086/678125. hdl:10019.1/98200. PMID 25325751. S2CID 24693167.
  13. ^ Chao A, Chiu CH, Jost L (November 2010). "Phylogenetic diversity measures based on Hill numbers". Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences. 365 (1558): 3599–609. doi:10.1098/rstb.2010.0272. PMC 2982003. PMID 20980309.
  14. ^ Lande R (May 1996). "Statistics and partitioning of species diversity, and similarity among multiple communities". Oikos. 1 (1): 5–13. Bibcode:1996Oikos..76....5L. doi:10.2307/3545743. JSTOR 3545743.
  15. ^ Veech JA, Summerville KS, Crist TO, Gering JC (October 2002). "The additive partitioning of species diversity: recent revival of an old idea". Oikos. 99 (1): 3–9. Bibcode:2002Oikos..99....3V. doi:10.1034/j.1600-0706.2002.990101.x.
  16. ^ Albert JS, Reis RE (8 March 2011). Historical Biogeography of Neotropical Freshwater Fishes. University of California Press. p. 308. ISBN 978-0-520-26868-5. Retrieved 28 June 2011.
  17. ^ Whittaker RH (1972). "Evolution and measurement of species diversity". Taxon. 21 (2–3): 213–251. doi:10.2307/1218190. JSTOR 1218190.
  18. ^ Sørensen TA (1948). "A method of establishing groups of equal amplitude in plant sociology based on similarity of species content, and its application to analyses of the vegetation on Danish commons". Kongelige Danske Videnskabernes Selskabs Biologiske Skrifter. 5: 1–34.
  19. ^ a b c Sreekar R, Katabuchi M, Nakamura A, Corlett RT, Slik JW, Fletcher C, et al. (September 2018). "Spatial scale changes the relationship between beta diversity, species richness and latitude". Royal Society Open Science. 5 (9): 181168. Bibcode:2018RSOS....581168S. doi:10.1098/rsos.181168. PMC 6170539. PMID 30839691.
  20. ^ MacArthur RH (November 1965). "Patterns of species diversity". Biological Reviews. 40 (4): 510–33. doi:10.1111/j.1469-185X.1965.tb00815.x. S2CID 86777476.
  21. ^ Koleff P, Lennon JJ, Gaston KJ (November 2003). "Are there latitudinal gradients in species turnover?". Global Ecology and Biogeography. 12 (6): 483–98. Bibcode:2003GloEB..12..483K. doi:10.1046/j.1466-822X.2003.00056.x.
  22. ^ Kraft NJ, Comita LS, Chase JM, Sanders NJ, Swenson NG, Crist TO, et al. (September 2011). "Disentangling the drivers of β diversity along latitudinal and elevational gradients". Science. New York, N.Y. 333 (6050): 1755–8. Bibcode:2011Sci...333.1755K. doi:10.1126/science.1208584. PMID 21940897. S2CID 206535334.
  23. ^ Qian H, Chen S, Mao L, Ouyang Z (June 2013). "Drivers of β‐diversity along latitudinal gradients revisited". Global Ecology and Biogeography. 22 (6): 659–70. Bibcode:2013GloEB..22..659Q. doi:10.1111/geb.12020.
  24. ^ Kitching RL, Ashton LA, Nakamura A, Whitaker T, Khen CV (June 2013). "Distance‐driven species turnover in Bornean rainforests: homogeneity and heterogeneity in primary and post‐logging forests". Ecography. 36 (6): 675–82. doi:10.1111/j.1600-0587.2012.00023.x. hdl:10072/57312.
  25. ^ Berry NJ, Phillips OL, Ong RC, Hamer KC (October 2008). "Impacts of selective logging on tree diversity across a rainforest landscape: the importance of spatial scale". Landscape Ecology. 23 (8): 915–29. doi:10.1007/s10980-008-9248-1. S2CID 38892245.
  26. ^ Newbold T, Hudson LN, Hill SL, Contu S, Gray CL, Scharlemann JP, et al. (December 2016). "Global patterns of terrestrial assemblage turnover within and among land uses". Ecography. 39 (12): 1151–63. Bibcode:2016Ecogr..39.1151N. doi:10.1111/ecog.01932. hdl:10044/1/32808.
  27. ^ Na L, Kiessling W (April 2015). "Diversity partitioning during the Cambrian radiation". Proceedings of the National Academy of Sciences of the United States of America. 112 (15): 4702–6. Bibcode:2015PNAS..112.4702N. doi:10.1073/pnas.1424985112. PMC 4403203. PMID 25825755.
  28. ^ Sepkoski JJ (1988). "Alpha, beta, or gamma: where does all the diversity go?". Paleobiology. 14 (3): 221–34. Bibcode:1988Pbio...14..221S. doi:10.1017/s0094837300011969. PMID 11542147. S2CID 2826581.
  29. ^ Hofmann R, Hautmann M, Bucher H (2017-10-03). "Diversity partitioning in Permian and Early Triassic benthic ecosystems of the Western USA: a comparison". Historical Biology. 29 (7): 918–930. Bibcode:2017HBio...29..918H. doi:10.1080/08912963.2016.1263626. S2CID 132194066.
  30. ^ Hautmann M (2016). "Diversity partitioning in Jurassic level-bottom communities". Historical Biology. 28 (6): 849–857. Bibcode:2016HBio...28..849H. doi:10.1080/08912963.2015.1051482. S2CID 85880638.
  31. ^ Hautmann M (2014). "Diversification and diversity partitioning". Paleobiology. 40 (2): 162–176. doi:10.1666/13041. S2CID 86225708.

February 16, 2024
beta, diversity, ecology, beta, diversity, diversity, true, beta, diversity, ratio, between, regional, local, species, diversity, term, introduced, whittaker, together, with, terms, alpha, diversity, diversity, gamma, diversity, diversity, idea, that, total, s. In ecology beta diversity b diversity or true beta diversity is the ratio between regional and local species diversity The term was introduced by R H Whittaker 1 together with the terms alpha diversity a diversity and gamma diversity g diversity The idea was that the total species diversity in a landscape g is determined by two different things the mean species diversity at the local level a and the differentiation among local sites b Other formulations for beta diversity include absolute species turnover Whittaker s species turnover and proportional species turnover citation needed Whittaker proposed several ways of quantifying differentiation and subsequent generations of ecologists have invented more As a result there are now many defined types of beta diversity 2 3 Some use beta diversity to refer to any of several indices related to compositional heterogeneity 4 5 6 Confusion is avoided by using distinct names for other formulations 2 3 7 8 9 10 Beta diversity as a measure of species turnover overemphasizes the role of rare species as the difference in species composition between two sites or communities is likely reflecting the presence and absence of some rare species in the assemblages Beta diversity can also be a measure of nestedness which occurs when species assemblages in species poor sites are a subset of the assemblages in more species rich sites 11 Moreover pairwise beta diversity are inadequate in building all biodiversity partitions some partitions in a Venn diagram of 3 or more sites cannot be expressed by alpha and beta diversity Consequently some macroecological and community patterns cannot be fully expressed by alpha and beta diversity Due to these two reasons a new way of measuring species turnover coined Zeta diversity z diversity 12 has been proposed and used to connect all existing incidence based biodiversity patterns Contents 1 Types 1 1 Whittaker beta diversity 1 2 Absolute species turnover 1 3 Whittaker s species turnover 1 4 Proportional species turnover 2 b diversity patterns 3 Diversity partitioning in the geologic past 4 See also 5 ReferencesTypes editWhittaker beta diversity edit Gamma diversity and alpha diversity can be calculated directly from species inventory data 2 13 The simplest of Whittaker s original definitions of beta diversity isb g aHere gamma diversity is the total species diversity of a landscape and alpha diversity is the mean species diversity per site Because the limits among local sites and landscapes are diffuse and to some degree subjective it has been proposed that gamma diversity can be quantified for any inventory dataset and that alpha and beta diversity can be quantified whenever the dataset is divided into subunits Then gamma diversity is the total species diversity in the dataset and alpha diversity the mean species diversity per subunit Beta diversity quantifies how many subunits there would be if the total species diversity of the dataset and the mean species diversity per subunit remained the same but the subunits shared no species 2 7 Absolute species turnover edit Some researchers have preferred to partition gamma diversity into additive rather than multiplicative components 14 15 Then the beta component of diversity becomesbA g aThis quantifies how much more species diversity the entire dataset contains than an average subunit within the dataset This can also be interpreted as the total amount of species turnover among the subunits in the dataset 2 When there are two subunits and presence absence data are used this can be calculated with the following equation b A S 1 c S 2 c displaystyle beta A S 1 c S 2 c nbsp 16 where S1 the total number of species recorded in the first community S2 the total number of species recorded in the second community and c the number of species common to both communities Whittaker s species turnover edit If absolute species turnover is divided by alpha diversity a measure is obtained that quantifies how many times the species composition changes completely among the subunits of the dataset This measure was proposed by Whittaker 17 so it has been called Whittaker s species turnover 2 It is calculated asbW g a a g a 1When there are two subunits and presence absence data are used this equals the one complement of the Sorensen similarity index 2 18 Proportional species turnover edit If absolute species turnover is divided by gamma diversity a measure is obtained that quantifies what proportion of the species diversity in the dataset is not contained in an average subunit 2 It is calculated asbP g a g 1 a gWhen there are two subunits and presence absence data are used this measure as ranged to the interval 0 1 equals the one complement of the Jaccard similarity index 2 b diversity patterns edit nbsp Grain size changes the relationship between tree beta diversity and latitude See Sreekar et al 19 Although understanding the change in species composition from local to regional scales b diversity is a central theme in ecology and biogeography studies often reached different conclusions as to the fundamental patterns in b diversity For example niche compression hypothesis predicted higher b diversity at lower latitudes 20 19 21 22 23 Studies comparing natural local sites with human modified local sites are no different Kitching et al 24 sampled moths in primary and logged forests of Danum valley Borneo to show that b diversity in primary forests was higher than logged forests Contrastingly Berry et al 25 sampled trees in the same study area to show that b diversity in logged forests was higher than primary forests The results of these two studies were completely different from the results of a recent quantitative synthesis 26 which showed that b diversity in primary forests were similar to b diversity in all types of human modified local sites secondary forests plantations pasture and urban Therefore there is a clear lack of consensus on b diversity patterns among studies Sreekar et al 19 suggested that most of these inconsistencies were due to the differences in grain size and or spatial extent among studies They showed that spatial scale changes the relationship between b diversity and latitude Diversity partitioning in the geologic past editMajor diversification events in the geologic past were associated with shifts in the relative contributions of alpha and beta diversity diversity partitioning Examples include the Cambrian explosion 27 the great Ordovician biodiversification event 28 and the recoveries from the end Permian 29 and end Triassic 30 mass extinction events Empirical data from these case studies confirm theoretical predictions that an increasing number of species will increase beta diversity relative to alpha diversity because of the effects from interspecific competition yet alpha diversity may increase again once options for increasing geographic turnover are exhausted 31 See also editAlpha diversity Biotic homogenization Bray Curtis dissimilarity Dark diversity Diversity index Gamma diversity Global biodiversity Jaccard distance Measurement of biodiversity Zeta diversityReferences edit Whittaker RH 1960 Vegetation of the Siskiyou Mountains Oregon and California Ecological Monographs 30 3 279 338 Bibcode 1960EcoM 30 279W doi 10 2307 1943563 JSTOR 1943563 a b c d e f g h i Tuomisto H 2010 A diversity of beta diversities straightening up a concept gone awry Part 1 Defining beta diversity as a function of alpha and gamma diversity Ecography 33 2 22 Bibcode 2010Ecogr 33 2T doi 10 1111 j 1600 0587 2009 05880 x a b Tuomisto H 2010 A diversity of beta diversities straightening up a concept gone awry Part 2 Quantifying beta diversity and related phenomena Ecography 33 1 23 45 Bibcode 2010Ecogr 33 23T doi 10 1111 j 1600 0587 2009 06148 x Koleff P Gaston KJ Lennon JJ 2003 Measuring beta diversity for presence absence data Journal of Animal Ecology 72 3 367 382 Bibcode 2003JAnEc 72 367K doi 10 1046 j 1365 2656 2003 00710 x Anderson MJ Crist TO Chase JM Vellend M Inouye BD Freestone AL et al January 2011 Navigating the multiple meanings of b diversity a roadmap for the practicing ecologist Ecology Letters 14 1 19 28 Bibcode 2011EcolL 14 19A doi 10 1111 j 1461 0248 2010 01552 x PMID 21070562 Gorelick R December 2011 Commentary Do we have a consistent terminology for species diversity The fallacy of true diversity Oecologia 167 4 885 8 discussion 903 11 Bibcode 2011Oecol 167 885G doi 10 1007 s00442 011 2124 8 PMID 21947497 S2CID 6244637 a b Tuomisto H 2010 A consistent terminology for quantifying species diversity Yes it does exist Oecologia 4 853 860 doi 10 1007 s00442 010 1812 0 Jurasinski G Koch M December 2011 Commentary do we have a consistent terminology for species diversity We are on the way Oecologia 167 4 893 902 discussion 903 11 Bibcode 2011Oecol 167 893J doi 10 1007 s00442 011 2126 6 PMID 21938639 S2CID 24562429 Moreno CE Rodriguez P December 2011 Commentary Do we have a consistent terminology for species diversity Back to basics and toward a unifying framework Oecologia 167 4 889 92 discussion 903 11 Bibcode 2011Oecol 167 889M doi 10 1007 s00442 011 2125 7 PMID 21965142 S2CID 8917573 Tuomisto H 2011 Commentary do we have a consistent terminology for species diversity Yes if we choose to use it Oecologia 167 4 903 911 Bibcode 2011Oecol 167 903T doi 10 1007 s00442 011 2128 4 S2CID 19271108 Baselga A January 2010 Partitioning the turnover and nestedness components of beta diversity Global Ecology and Biogeography 19 1 134 143 Bibcode 2010GloEB 19 134B doi 10 1111 j 1466 8238 2009 00490 x ISSN 1466 8238 Hui C McGeoch MA 2014 Zeta diversity as a concept and metric that unifies incidence based biodiversity patterns American Naturalist 184 5 684 694 doi 10 1086 678125 hdl 10019 1 98200 PMID 25325751 S2CID 24693167 Chao A Chiu CH Jost L November 2010 Phylogenetic diversity measures based on Hill numbers Philosophical Transactions of the Royal Society of London Series B Biological Sciences 365 1558 3599 609 doi 10 1098 rstb 2010 0272 PMC 2982003 PMID 20980309 Lande R May 1996 Statistics and partitioning of species diversity and similarity among multiple communities Oikos 1 1 5 13 Bibcode 1996Oikos 76 5L doi 10 2307 3545743 JSTOR 3545743 Veech JA Summerville KS Crist TO Gering JC October 2002 The additive partitioning of species diversity recent revival of an old idea Oikos 99 1 3 9 Bibcode 2002Oikos 99 3V doi 10 1034 j 1600 0706 2002 990101 x Albert JS Reis RE 8 March 2011 Historical Biogeography of Neotropical Freshwater Fishes University of California Press p 308 ISBN 978 0 520 26868 5 Retrieved 28 June 2011 Whittaker RH 1972 Evolution and measurement of species diversity Taxon 21 2 3 213 251 doi 10 2307 1218190 JSTOR 1218190 Sorensen TA 1948 A method of establishing groups of equal amplitude in plant sociology based on similarity of species content and its application to analyses of the vegetation on Danish commons Kongelige Danske Videnskabernes Selskabs Biologiske Skrifter 5 1 34 a b c Sreekar R Katabuchi M Nakamura A Corlett RT Slik JW Fletcher C et al September 2018 Spatial scale changes the relationship between beta diversity species richness and latitude Royal Society Open Science 5 9 181168 Bibcode 2018RSOS 581168S doi 10 1098 rsos 181168 PMC 6170539 PMID 30839691 MacArthur RH November 1965 Patterns of species diversity Biological Reviews 40 4 510 33 doi 10 1111 j 1469 185X 1965 tb00815 x S2CID 86777476 Koleff P Lennon JJ Gaston KJ November 2003 Are there latitudinal gradients in species turnover Global Ecology and Biogeography 12 6 483 98 Bibcode 2003GloEB 12 483K doi 10 1046 j 1466 822X 2003 00056 x Kraft NJ Comita LS Chase JM Sanders NJ Swenson NG Crist TO et al September 2011 Disentangling the drivers of b diversity along latitudinal and elevational gradients Science New York N Y 333 6050 1755 8 Bibcode 2011Sci 333 1755K doi 10 1126 science 1208584 PMID 21940897 S2CID 206535334 Qian H Chen S Mao L Ouyang Z June 2013 Drivers of b diversity along latitudinal gradients revisited Global Ecology and Biogeography 22 6 659 70 Bibcode 2013GloEB 22 659Q doi 10 1111 geb 12020 Kitching RL Ashton LA Nakamura A Whitaker T Khen CV June 2013 Distance driven species turnover in Bornean rainforests homogeneity and heterogeneity in primary and post logging forests Ecography 36 6 675 82 doi 10 1111 j 1600 0587 2012 00023 x hdl 10072 57312 Berry NJ Phillips OL Ong RC Hamer KC October 2008 Impacts of selective logging on tree diversity across a rainforest landscape the importance of spatial scale Landscape Ecology 23 8 915 29 doi 10 1007 s10980 008 9248 1 S2CID 38892245 Newbold T Hudson LN Hill SL Contu S Gray CL Scharlemann JP et al December 2016 Global patterns of terrestrial assemblage turnover within and among land uses Ecography 39 12 1151 63 Bibcode 2016Ecogr 39 1151N doi 10 1111 ecog 01932 hdl 10044 1 32808 Na L Kiessling W April 2015 Diversity partitioning during the Cambrian radiation Proceedings of the National Academy of Sciences of the United States of America 112 15 4702 6 Bibcode 2015PNAS 112 4702N doi 10 1073 pnas 1424985112 PMC 4403203 PMID 25825755 Sepkoski JJ 1988 Alpha beta or gamma where does all the diversity go Paleobiology 14 3 221 34 Bibcode 1988Pbio 14 221S doi 10 1017 s0094837300011969 PMID 11542147 S2CID 2826581 Hofmann R Hautmann M Bucher H 2017 10 03 Diversity partitioning in Permian and Early Triassic benthic ecosystems of the Western USA a comparison Historical Biology 29 7 918 930 Bibcode 2017HBio 29 918H doi 10 1080 08912963 2016 1263626 S2CID 132194066 Hautmann M 2016 Diversity partitioning in Jurassic level bottom communities Historical Biology 28 6 849 857 Bibcode 2016HBio 28 849H doi 10 1080 08912963 2015 1051482 S2CID 85880638 Hautmann M 2014 Diversification and diversity partitioning Paleobiology 40 2 162 176 doi 10 1666 13041 S2CID 86225708 Retrieved from https en wikipedia org w index php title Beta diversity amp oldid 1193847947, wikipedia, wiki, book, books, 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