Abstract
The influence of spatial processes on diversity and community dynamics is generally recognized in ecology and also applied to conservation projects involving forest and grassland ecosystems. Riverine ecosystems, however, have been for a long time viewed from a local or linear perspective, even though the treelike branching of river networks is universal. River networks (so-called dendritic networks) are not only structured in a hierarchic way, but the dendritic landscape structure and physical flows often dictate distance and directionality of dispersal. Theoretical models suggest that the specific riverine network structure directly affects diversity patterns. Recent experimental and comparative data are supporting this idea. Here, I provide an introduction on theoretical findings suggesting that genetic diversity, heterozygosity and species richness are higher in dendritic systems compared to linear or two-dimensional lattice landscapes. The characteristic diversity patterns can be explained in a network perspective, which also offers universal metrics to better understand and protect riverine diversity. I show how appropriate metrics describing network centrality and dispersal distances are superior to classic measures still applied in aquatic ecology, such as Strahler order or Euclidian distance. Finally, knowledge gaps and future directions of research are identified. The network perspective employed here may help to generalize findings on riverine biodiversity research and can be applied to conservation and river restoration projects.
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References
Alp M, Keller I, Westram AM, Robinson CT (2012) How river structure and biological traits influence gene flow: a population genetic study of two stream invertebrates with differing dispersal abilities. Freshwater Biol 57:969–981
Altermatt F (2012) Metacommunity dynamics. In: Gibson D (ed) Oxford bibliographies online: ecology. Oxford University Press, New York. http://www.oxfordbibliographies.com/view/document/obo-9780199830060/obo-9780199830060-0021.xml. Accessed 5 June 2013
Altermatt F, Ebert D (2008) The influence of pool volume and summer desiccation on the production of the resting and dispersal stage in a Daphnia metapopulation. Oecologia 157:441–452
Altermatt F, Ebert D (2010) Populations in small, ephemeral habitat patches may drive dynamics in a Daphnia magna metapopulation. Ecology 91:2975–2982
Altermatt F, Schreiber S, Holyoak M (2011) Interactive effects of disturbance and dispersal directionality on species richness and composition in metacommunities. Ecology 92:859–870
Altermatt F, Seymour M, Martinez N (2013) River network properties shape α-diversity and community similarity patterns of aquatic insect communities across major drainage basins. J Biogeogr. doi: 10.1111/jbi.12178
Astorga A, Oksanen J, Luoto M, Soininen J, Virtanen R, Muotka T (2012) Distance decay of similarity in freshwater communities: do macro- and microorganisms follow the same rules? Glob Ecol Biogeogr 21:365–375
Barták V, Vorel A, Šímová P, Puš V (2013) Spatial spread of Eurasian beavers in river networks: a comparison of range expansion rates. J Anim Ecol 82:587–597
Benda L, Poff NL, Miller D, Dunne T, Reeves G, Pess G, Pollock M (2004) The network hypothesis: how channel networks structure riverine habitats. Bioscience 54:413–427
Bernhardt ES, Palmer MA (2011) River restoration: the fuzzy logic of repairing reaches to reverse catchment scale degradation. Ecol Appl 21:1926–1931
Bilton DT, Freeland JR, Okamura B (2001) Dispersal in freshwater invertebrates. In: Fautin DG, Futuyma DJ, Shaffer HB (eds) Ann Rev Ecol Syst, vol 32. Annual Reviews Palo Alto, pp 159–181
Brown BL, Swan CM (2010) Dendritic network structure constrains metacommunity properties in riverine ecosystems. J Anim Ecol 79:571–580
Brown BL, Swan CM, Auerbach DA, Campbell Grant EH, Hitt NP, Maloney KO, Patrick C (2011) Metacommunity theory as a multispecies, multiscale framework for studying the influence of river network structure on riverine communities and ecosystems. J N Am Benthol Soc 30:310–327
Carrara F, Altermatt F, Rodriguez-Iturbe I, Rinaldo A (2012) Dendritic connectivity controls biodiversity patterns in experimental metacommunities. Proc Natl Acad Sci USA 109:5761–5766. doi:10.1073/pnas.1119651109
Carrara F, Giometto A, Rinaldo A, Altermatt F (2013) Complex interaction of dendritic connectivity and hierarchical patch size on biodiversity in river-like landscapes. Am Nat (in press)
Clarke A, Nally RM, Bond N, Lake PS (2008) Macro invertebrate diversity in headwater streams: a review. Freshwater Biol 53:1707–1721
Death RG, Winterbourn MJ (1995) Diversity patterns in stream benthic invertebrate communities: the influence of habitat stability. Ecology 76:1446–1460
Dudgeon D, Arthington AH, Gessner MO, Kawabata ZI, Knowler DJ, Lévêque C, Naiman RJ, Prieur-Richard AH, Soto D, Stiassny MLJ, Sullivan CA (2006) Freshwater biodiversity: importance, threats, status and conservation challenges. Biol Rev 81:163–182
Elliott JM (1971) The distances travelled by drifting invertebrates in a Lake District stream. Oecologia 6:350–379
Elliott JM (2003) A comparative study of the dispersal of 10 species of stream invertebrates. Freshwater Biol 48:1652–1668
Erös T, Schmera D, Schick RS (2011) Network thinking in rivers cape conservation: a graph-based approach. Biol Cons 144:184–192. doi:10.1016/j.biocon.2010.08.013
Fagan WF (2002) Connectivity, fragmentation, and extinction risk in dendritic metapopulations. Ecology 83:3243–3249
Fagan WF, Grant EHC, Lynch HJ, Unmack P (2009) Riverine landscapes: ecology for an alternative geometry. In: Cantrell RS, Cosner C, Ruan S (eds) Spatial ecology. Chapman Hall Press, Boca Raton
Fernandes CC, Podos J, Lundberg JG (2004) Amazonian ecology: tributaries enhance the diversity of electric fishes. Science 305:1960–1962
Finn DS, Bonada N, Múrria C, Hughes JM (2011) Small but mighty: headwaters are vital to stream network biodiversity at two levels of organization. J N Am Benthol Soc 30:963–980
Fong DW, Culver DC (1994) Fine-scale biogeographic differences in the Crustacean fauna of cave systems in West-Virginia, USA. Hydrobiologia 287(1):29–37
Gonzalez A, Lawton JH, Gilbert FS, Blackburn TM, Evans-Freke I (1998) Metapopulation dynamics, abundance, and distribution in a microecosystem. Science 281:2045–2047
Göthe E, Angeler DG, Sandin L (2013) Metacommunity structure in a small boreal stream network. J Anim Ecol 82:449–458
Grant EHC, Lowe WH, Fagan WF (2007) Living in the branches: population dynamics and ecological processes in dendritic networks. Ecol Lett 10:165–175
Grant EHC, Nichols JD, Lowe WH, Fagan WF (2010) Use of multiple dispersal pathways facilitates amphibian persistence in stream networks. Proc Natl Acad Sci USA 107:6936–6940
Grant EHC, Lynch HJ, Muneepeerakul R, Arunachalam M, Rodriguez-Iturbe I, Fagan WF (2012) Interbasin water transfer, riverine connectivity, and spatial controls on fish biodiversity. PLoS ONE 7:e34170
Grubaugh JW, Wallace JB, Houston ES (1996) Longitudinal changes of macroinvertebrate communities along an Appalachian stream continuum. Can J Fish Aquat Sci 53:896–909
Hanski I, Gaggiotti OE (eds) (2004) Ecology, genetics and evolution of metapopulations. Elsevier Academic Press, Amsterdam
Heino J, Muotka T, Paavola R (2003) Determinants of macro invertebrate diversity in headwater streams: regional and local influences. J Anim Ecol 72:425–434
Heino J, Grönroos M, Soininen J, Virtanen R, Muotka T (2012) Context dependency and metacommunity structuring in boreal headwater streams. Oikos 121:537–544
Holyoak M, Leibold MA, Holt RD (eds) (2005) Metacommunities. Spatial dynamics and ecological communities. The University of Chicago Press, Chicago
Hubbell SP (2001) The unified neutral theory of biodiversity and biogeography. Princeton University Press, Princeton
Labonne J, Ravigné V, Parisi B, Gaucherel C (2008) Linking dendritic network structures to population demogenetics: the downside of connectivity. Oikos 117:1479–1490
Leibold MA, Holyoak M, Mouquet N, Amarasekare P, Chase JM, Hoopes MF, Holt RD, Shurin JB, Law R, Tilman D, Loreau M, Gonzalez A (2004) The metacommunity concept: a framework for multi-scale community ecology. Ecol Lett 7:601–613
Leopold LB, Wolman MG, Miller JP (1964) Fluvial processes in geomorphology. Freeman, San Francisco
Leprieur F, Beauchard O, Blanchet S, Oberdorff T, Brosse Sb (2008) Fish invasions in the world’s river systems: when natural processes are blurred by human activities. PLoS Biol 6:e28
Leuven RSEW, van der Velde G, Baijens I, Snijders J, van der Zwart C, Lenders HJR, de Vaate Ab (2009) The river Rhine: a global highway for dispersal of aquatic invasive species. Biol Invasions 11 (9, Sp. Iss. SI):1989–2008
Levine JM (2003) A patch modelling approach to the community-level consequences of directional dispersal. Ecology 84:1215–1224
Linke S, Kennard MJ, Hermoso V, Olden JD, Stein J, Pusey BJ (2012) Merging connectivity rules and large-scale condition assessment improves conservation adequacy in river systems. J Appl Ecol 49:1036–1045
Lowe WH, Likens GE, Power ME (2006) Linking scales in stream ecology. Bioscience 56:591–597
Lynch HJ, Grant EHC, Muneepeerakul R, Arunachalam M, Rodriguez-Iturbe I, Fagan WF (2011) How restructuring river connectivity changes freshwater fish biodiversity and biogeography. Wat Resour Res 47:W05531
Mari L, Bertuzzo E, Casagrandi R, Gatto M, Levin SA, Rodriguez-Iturbe I, Rinaldo A (2011) Hydrologic controls and anthropogenic drivers of the zebra mussel invasion of the Mississippi-Missouri river system. Wat Resour Res 47:W03523
Moilanen A, Smith AT, Hanski I (1998) Long-term dynamics in a metapopulation of the American pika. Am Nat 152:530–542
Morrissey MB, de Kerckhove DT (2009) The maintenance of genetic variation due to asymmetric gene flow in dendritic metapopulations. Am Nat 174:875–889
Muneepeerakul R, Weitz JS, Levin SA, Rinaldo A, Rodriguez-Iturbe I (2007) A neutral metapopulation model of biodiversity in river networks. J Theor Biol 245:351–363
Muneepeerakul R, Bertuzzo E, Lynch HJ, Fagan WF, Rinaldo A, Rodriguez-Iturbe I (2008) Neutral metacommunity models predict fish diversity patterns in Mississippi-Missouri basin. Nature 453:220–222
Newman MEJ (2010) Networks: an introduction. Oxford University Press, Oxford
Peterson EE, Ver Hoef JM, Isaak DJ, Falke JA, Fortin M-J, Jordan CE, McNyset K, Monestiez P, Ruesch AS, Sengupta A, Som N, Steel EA, Theobald DM, Torgersen CE, Wenger SJ (2013) Modelling dendritic ecological networks in space: an integrated network perspective. Ecol Lett 16:707–719
Power ME, Stout RJ, Cushing CE, Harper PP, Hauer FR, Matthews WJ, Moyle PB, Statzner B, Badgen IRWD (1988) Biotic and abiotic controls in river and stream communities. J N Am Benthol Soc 7:456–479
Rodriguez-Iturbe I, Rinaldo A (1997) Fractal river networks: chance and self-organization. Cambridge University Press, New York
Rodriguez-Iturbe I, Muneepeerakul R, Bertuzzo E, Levin SA, Rinaldo A (2009) River networks as ecological corridors: a complex systems perspective for integrating hydrologic, geomorphologic, and ecologic dynamics. Wat Resour Res 45:1–22
Shepherd RG, Ellis BN (1997) Leonardo da Vinci’s tree and the law of channel widths: combining quantitative geomorphology and art in education. J Geosci Edu 45:425–427
Singer GA, Fasching C, Wilhelm L, Niggemann J, Steier P, Dittmar T, Battin TJ (2012) Biogeochemically diverse organic matter in Alpine glaciers and its downstream fate. Nat Geosci 5:710–714
Strahler AN (1957) Quantitative analysis of watershed geomorphology. Trans Am Geophys Uni 8:913–920
Sundermann A, Stoll S, Haase P (2011) River restoration success depends on the species pool of the immediate surroundings. Ecol Appl 21:1962–1971
Thompson R, Townsend C (2006) A truce with neutral theory: local deterministic factors, species traits and dispersal limitation together determine patterns of diversity in stream invertebrates. J Anim Ecol 75:476–484
Urban DL, Minor ES, Treml EA, Schick RS (2009) Graph models of habitat mosaics. Ecol Lett 12:260–273
Vannote RR, Minshall GW, Cummins KW, Sedell JR, Cushing CE (1980) The river continuum concept. Can J Fish Aquat Sci 37:130–137
Vinson MR, Hawkins CP (1998) Biodiversity of stream insects: variation at local, basin, and regional scales. Ann Rev Entom 43:271–293
Vorosmarty CJ, McIntyre PB, Gessner MO, Dudgeon D, Prusevich A, Green P, Glidden S, Bunn SE, Sullivan CA, Liermann CR, Davies PM (2010) Global threats to human water security and river biodiversity. Nature 467:555–561
Winemiller KO, Flecker AS, Hoeinghaus DJ (2010) Patch dynamics and environmental heterogeneity in lotic ecosystems. J N Am Benthol Soc 29:84–99
Woodward G, Gessner MO, Giller PS, Gulis V, Hladyz S, Lecerf A, Malmqvist B, McKie BG, Tiegs SD, Cariss H, Dobson M, Elosegi A, Ferreira V, Graça MAS, Fleituch T, Lacoursière JO, Nistorescu M, Pozo J, Risnoveanu G, Schindler M, Vadineanu A, Vought LBM, Chauvet E (2012) Continental-scale effects of nutrient pollution on stream ecosystem functioning. Science 336:1438–1440
Acknowledgments
I thank E. Bertuzzo, A. Bieger, F. Carrara, A. Giometto, A. Rinaldo, M. Seymour and three anonymous reviewers for discussions and comments on previous versions of the manuscript. Funding is from the Swiss National Science Foundation Grant 31003A_135622.
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Altermatt, F. Diversity in riverine metacommunities: a network perspective. Aquat Ecol 47, 365–377 (2013). https://doi.org/10.1007/s10452-013-9450-3
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DOI: https://doi.org/10.1007/s10452-013-9450-3