Abstract
Streams and rivers in mediterranean-climate regions (med-rivers) are subjected to sequential, yet contrasting hydrologic disturbances of drying and flooding. Although seasonally predictable, these disturbances can vary in intensity and duration within and among mediterranean-climate regions (med-regions). Consequently, med-rivers differ in the permanence of their aquatic habitats. To persist, species have acquired matched resistance and resilience adaptations. They gain resistance either by enduring the stress or avoiding it. Community recovery (or resilience) is achieved with cessation of hydrologic stress that permits maximization of re-colonization and reproduction. Endurance strategies are usually disturbance-specific, but avoidance enables organisms to cope with both drying and flooding, and is the prevalent resistance strategy. Correspondingly, community persistence depends to a large extent on the integrity of refuges, an aspect that has so far been little explored. Existing information suggests that seasonal community succession becomes more pronounced with increasing aridity and declining water permanence. The invertebrate community in semi-arid med-rivers can therefore undergo succession through three to four identifiable assemblages, whereas in perennial streams the difference between wet and dry period assemblages is smaller. Community turnover is influenced by the intensity of the hydrologic disturbances and varies between wet and drought years.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Acuña, V., I. Muñoz, A. Giorgi, M. Omella, F. Sabater & S. Sabater, 2005. Drought and postdrought recovery cycles in an intermittent Mediterranean stream: structural and functional aspects. Journal of the North American Benthological Society 24: 919–933.
Acuña, V., A. Giorgi, I. Munoz, F. Sabater & S. Sabater, 2007. Meteorological and riparian influences on organic matter dynamics in a forested Mediterranean stream. Journal of the North American Benthological Society 26: 54–69.
Allan, J. D. & M. M. Castillo, 2007. Stream Ecology: Structure and Function of Running Waters, 2nd ed. Springer, Dordrecht, Netherlands.
Álvarez, M. & I. Pardo, 2007. Factors controlling epilithon biomass in a temporary, karstic stream: the interaction between substratum and grazing. Journal of the North American Benthological Society 26: 207–220.
Álvarez, M. & I. Pardo, 2009. Dynamics in the trophic structure of the macroinvertebrate community in a Mediterranean, temporary stream. Aquatic Sciences 71: 202–213.
Aparicio, E. & A. Sostoa, 1999. Pattern of movements of adult Barbus haasi in a small Mediterranean stream. Journal of Fish Biology 55: 1086–1095.
Argerich, A., M. A. Puig & E. Pupilli, 2004. Effect of floods of different magnitude on the macroinvertebrate communities of Matarranya stream (Ebro river basin, NE Spain). Limnetica 23: 283–294.
Argyroudi, A., Y. Chatzinikolaou, K. Poirazidis & M. Lazaridou, 2009. Do intermittent and ephemeral Mediterranean rivers belong to the same river type? Aquatic Ecology 43: 465–476.
Aschmann, H., 1973. Distribution and peculiarity of Mediterranean ecosystems. In di Castri, F. & H. A. Mooney (eds), Mediterranean-Type Ecosystems: Origin and Structure, Ecological Studies 7. Springer-Verlag, Berlin: 11–19.
Bêche, L. A. & V. H. Resh, 2007. Biological traits of benthic macroinvertebrates in California mediterranean-climate streams: long-term annual variability and trait diversity patterns. Fundamental and Applied Limnology (Archiv für Hydrobiologie) 169: 1–23.
Bêche, L. A., E. P. McElravy & V. H. Resh, 2006. Long-term seasonal variation in the biological traits of benthic macroinvertebrates in two Mediterranean-climate streams in California, USA. Freshwater Biology 51: 56–75.
Bêche, L. A., P. G. Connors, V. H. Resh & A. M. Merenlender, 2009. Resilience of fishes and invertebrates to prolonged drought in two California streams. Ecography 32: 778–788.
Bilton, D. T., J. R. Freeland & B. Okamura, 2001. Dispersal in freshwater invertebrates. Annual Review of Ecology and Systematics 32: 159–181.
Bogan, M. T. & D. A. Lytle, 2007. Seasonal flow variation allows ‘time-sharing’ by disparate aquatic insect communities in montane desert streams. Freshwater Biology 52: 290–304.
Bohonak, A. J. & D. G. Jenkins, 2003. Ecological and evolutionary significance of dispersal by freshwater invertebrates. Ecology Letters 6: 783–796.
Boix, D., E. García-Berthou, S. Gascón, L. Benejam, E. Tornés, J. Sala, J. Benito, C. Munné & S. Sabater, 2010. Response of community structure to sustained drought in Mediterranean rivers. Journal of Hydrology 383: 135–146.
Bonada, N., M. Rieradevall, N. Prat & V. H. Resh, 2006. Benthic macroinvertebrate assemblages and macrohabitat connectivity in Mediterranean-climate streams of northern California. Journal of the North American Benthological Society 25: 32–43.
Bonada, N., M. Rieradevall & N. Prat, 2007a. Macroinvertebrate community structure and biological traits related to flow permanence in a Mediterranean river network. Hydrobiologia 589: 91–106.
Bonada, N., S. Dolédec & B. Statzner, 2007b. Taxonomic and biological trait differences of stream macroinvertebrate communities between mediterranean and temperate regions: implications for future climatic scenarios. Global Change Biology 13: 1658–1671.
Bond, N. R., P. S. Lake & A. H. Arthington, 2008. The impacts of drought on freshwater ecosystems: an Australian perspective. Hydrobiologia 600: 3–16.
Boulton, A. J., 2003. Parallels and contrasts in the effects of drought on stream macroinvertebrate assemblages. Freshwater Biology 48: 1173–1185.
Boulton, A. J. & P. S. Lake, 2008. Effects of drought on stream insects and its ecological consequences. In Lancaster, J. & R. A. Briers (eds), Aquatic Insects: Challenges to Populations. CAB International, Wallingford, UK: 81–102.
Boulton, A. J., F. Sheldon & K. M. Jenkins, 2006. Natural disturbance and aquatic invertebrates in desert rivers. In Kingsford, R. T. (ed), Ecology of Desert Rivers. Academic Press, New York: 133–153.
Bourrin, F., P. L. Friend, C. L. Amos, E. Manca, C. Ulses, A. Palanques, X. Durrieu de Madron & C. E. L. Thompson, 2008. Sediment dispersal from a typical Mediterranean flood: the Têt River, Gulf of Lions. Continental Shelf Research 28: 1895–1910.
Brown, B. L., 2007. Habitat heterogeneity and disturbance influence patterns of community temporal variability in a small temperate stream. Hydrobiologia 586: 93–106.
Buffagni, A., S. Erba & D. G. Armanini, 2010. The lentic-lotic character of Mediterranean rivers and its importance to aquatic invertebrate communities. Aquatic Sciences 72: 45–60.
Chester, E. T. & B. J. Robson, 2011. Drought refuges, spatial scale and recolonisation by invertebrates in non-perennial streams. Freshwater Biology 56: 2094–2104.
Corenblit, D., J. Steiger & E. Tabacchi, 2010. Biogeomorphologic succession dynamics in a Mediterranean river system. Ecography 33: 1136–1148.
Cowling, R. M., F. Ojeda, B. B. Lamont, P. W. Rundel & R. Lechmere-Oertel, 2005. Rainfall reliability, a neglected factor in explaining convergence and divergence of plant traits in fire-prone mediterranean-climate ecosystems. Global Ecology and Biogeography 14: 509–519.
Datry, T., D. B. Arscott & S. Sabater, 2011. Recent perspective on temporary river ecology. Aquatic Sciences 73: 453–457.
Davey, A. J. H. & D. J. Kelly, 2007. Fish community responses to drying disturbances in an intermittent stream: a landscape perspective. Freshwater Biology 52: 1719–1733.
Death, R. G., 2008. Effects of floods on aquatic invertebrate communities. In Lancaster, J. & R. A. Briers (eds), Aquatic Insects: Challenges to Populations. CAB International, Wallingford, UK: 81–102.
Death, R. G. & E. M. Zimmermann, 2005. Interaction between disturbance and primary productivity in determining stream invertebrate diversity. Oikos 111: 392–402.
Degani, G., G. N. Herbst, R. Ortal, H. J. Bromley, D. Levanon, Y. Netzer, N. Harari & H. Glazman, 1993. Relationship between current velocity, depth and the invertebrate community in a stable river system. Hydrobiolgia 263: 163–172.
del Rosario, R. B. & V. H. Resh, 2000. Invertebrates in intermittent and perennial streams: is the hyporheic zone a refuge from drying? Journal of the North American Benthological Society 19: 680–696.
Delucchi, C. M., 1989. Movement patterns of invertebrates in temporary and permanent streams. Oecologia 78: 199–207.
Delucchi, C. M. & B. L. Peckarsky, 1989. Life history patterns of insects in an intermittent and a permanent stream. Journal of the North American Benthological Society 8: 308–321.
Dewson, Z. S., A. B. W. James & R. G. Death, 2007. The influence of reduced flows on stream invertebrate individuals, populations and communities. Journal of the North American Benthological Society 26: 401–415.
Díaz, A. M., M. L. S. Alonso & M. Gutiérrez, 2008. Biological traits of stream macroinvertebrates from a semi-arid catchment: patterns along complex environmental gradients. Freshwater Biology 53: 1–21.
Dolédec, S. & B. Statzner, 2008. Invertebrate traits for the biomonitoring of large European rivers: an assessment of specific types of human impact. Freshwater Biology 53: 617–634.
Domisch, S., S. C. Jähnig & P. Haase, 2011. Climate-change winners and losers: stream macroinvertebrates of a submontane region in Central Europe. Freshwater Biology 56: 2009–2020.
Elron, E., A. Gasith & M. Goren, 2006. Reproductive strategy of a small endemic cyprinid, the Yarqon bleak (Acanthobrama telavivensis), in a mediterranean-type stream. Environmental Biology of Fishes 77: 141–155.
Eriksen C. H., G. A. Lamberti & V. H. Resh, 1996. Aquatic insect respiration. In Merrit, R. W. & K. W. Cummins (eds), An Introduction to the Aquatic Insects of North America, 3rd ed. Kendall/Hunt: 29–40
Ferreira, M. T., N. Caiola, F. Casals, R. Cortes, A. Economou, D. Garcia-Jalon, M. Ilhéu, F. Martinez-Capel, J. Oliveira, D. Pont, J. Prenda, C. Rogers, A. Sostoa & S. Zogaris, 2007. Ecological traits of fish assemblages from Mediterranean Europe and their responses to human disturbances. Fisheries Management and Ecology 14: 473–481.
Filipe, A. F., J. E. Lawrence & N. Bonada, 2012. Vulnerability of stream biota to climate change in mediterranean climate regions: a synthesis of ecological responses and conservation challenges. Hydrobiologia. doi:10.1007/s10750-012-1244-4
Franken, R. J. M., S. Batten, J. A. J. Beijer, J. J. P. Gardeniers, M. Scheffer & E. T. H. M. Peeters, 2006. Effects of interstitial refugia and current velocity on growth of the amphipod Gammarus pulex Linnaeus. Journal of the North American Benthological Society 25: 656–663.
Fritz, K. M. & W. K. Dodds, 2004. Resistance and resilience of macroinvertebrate assemblages to drying and flood in a tallgrass prairie stream system. Hydrobiologia 527: 99–112.
Gallart, F., N. Prat, E. M. García-Roger, J. Latron, M. Rieradevall, P. Llorens, G. G. Barberá, D. Brito, A. M. De Girolamo, A. Lo Porto, R. Neves, N. P. Nikolaidis, J. L. Perrin, E. P. Querner, J. M. Quiñonero, M. G. Tournoud, O. Tzoraki & J. Froebrich, 2011. Developing a novel approach to analyse the regimes of temporary streams and their controls on aquatic biota. Hydrology and Earth System Sciences Discussions 8: 9637–9673.
García-Roger, E. M., M. M. Sánchez-Montoya, R. Gomez, M. L. Suárez, M. R. Vidal-Abarca, J. Latron, M. Rieradevall & N. Prat, 2011. Do seasonal changes in habitat features influence aquatic macroinvertebrate assemblages in perennial versus temporary Mediterranean streams? Aquatic Sciences 73: 567–579.
Gasith, A. & V. H. Resh, 1999. Streams in mediterranean climate regions: abiotic influences and biotic responses to predictable seasonal events. Annual Review of Ecology, Evolution and Systematics 30: 51–81.
Gibbins, C., D. Vericat & R. J. Batalla, 2007. When is stream invertebrate drift catastrophic? The role of hydraulics and sediment transport in initiating drift during flood events. Freshwater Biology 52: 2369–2384.
Giller, P. S. & B. Malmqvist, 1998. The Biology of Streams and Rivers. Oxford University Press, Oxford.
Goren, M. & R. Ortal, 1999. Biogeography, diversity and conservation of the inland water fish communities in Israel. Biological Conservation 89: 1–9.
Graça, M. A., P. Pinto, R. Cortes, N. Coimbra, S. Oliveira, M. Morais, M. J. Carvalho & J. Malo, 2004. Factors affecting macroinvertebrate richness and diversity in Portuguese streams: a two-scale analysis. International Review of Hydrobiologia 89: 151–164.
Grantham, T. E., A. M. Merenlender & V. H. Resh, 2010. Climatic influences and anthropogenic stressors: an integrated framework for streamflow management in Mediterranean-climate California, U.S.A. Freshwater Biology 55(Suppl. 1): 188–204
Green, A. J. & J. Figuerola, 2005. Recent advances in the study of long-distance dispersal of aquatic invertebrates via birds. Diversity and Distributions 11: 149–156.
Grodek, T., Y. Jacoby, E. Morin & O. Katz, 2012. Effectiveness of exceptional rainstorms on a small Mediterranean basin. Geomorphology 159–160: 156–168.
Gunderson, L. H., 2000. Resilience in theory and practice. Annual Review of Ecology and Systematics 31: 425–439.
Haidekker, A. & D. Hering, 2007. Relationship between benthic insects (Ephemeroptera, Plecoptera, Coleoptera, Trichoptera) and temperature in small and medium-sized streams in Germany: a multivariate study. Aquatic Ecology 42: 463–481.
Hart, D. D. & D. M. Fonseca, 1997. Seeking shelter from the storm: behavioral responses of stream invertebrates to natural and experimental floods. Bulletin of the North American Benthological Society14: 102
Hart, D. D. & C. M. Finelli, 1999. Physical-biological coupling in streams: the pervasive effects of flow on benthic organisms. Annual Review of Ecology and Systematics 30: 363–395.
Hering, D. & H. Plachter, 1997. Riparian ground beetles (Coeloptera, Carabidae) preying on aquatic invertebrates: a feeding strategy in alpine floodplains. Oecologia 111: 261–270.
Hering, D., A. Schmidt-Kloiber, J. Murphy, S. Lücke, C. Zamora-Muñoz, M. J. López Rodríguez, T. Huber & W. Graf, 2009. Potential impact of climate change on aquatic insects: a sensitivity analysis for European caddisflies (Trichoptera) based on distribution patterns and ecological preferences. Aquatic Sciences 71: 3–14.
Holling, C. S., 1973. Resilience and stability of ecological systems. Annual Review of Ecology and Systematics 4: 1–23.
Imbert, J. B., J. M. González, A. Basaguren & J. Pozo, 2005. Influence of inorganic substrata size, leaf litter and woody debris removal on benthic invertebrates resistance to floods in two contrasting headwater streams. International Review of Hydrobiology 90: 51–70.
IPCC, 2007. Climate change 2007: synthesis report. Contribution of working groups I, II and III to the fourth assessment report of the Intergovernmental Panel on Climate Change. IPCC, Geneva, Switzerland: 104 pp
James, A. B. W., Z. S. Dewson & R. G. Death, 2009. The influence of flow reduction on macroinvertebrate drift density and distance in three New Zealand streams. Journal of the North American Benthological Society 28: 220–232.
Jenkins, K. M. & A. J. Boulton, 2003. Connectivity in a dryland river: short term aquatic microinvertebrate recruitment following floodplain inundation. Ecology 84: 2708–2723.
Jonsson, B. & N. Jonsson, 2009. A review of the likely effects of climate change on anadromous Atlantic salmon Salmo salar and brown trout Salmo trutta with particular reference to water temperature and flow. Journal of Fish Biology 75: 2381–2447.
Lake, P. S., 2000. Disturbance, patchiness, and diversity in streams. Journal of the North American Benthological Society 19: 573–592.
Lake, P. S., 2003. Ecological effects of perturbation by drought in flowing waters. Freshwater Biology 48: 1161–1172.
Lake, P. S., 2007. Flow-generated disturbances and ecological responses: floods and droughts. In Wood, P. J., D. M. Hannah & J. P. Sadler (eds), Hydroecology and Ecohydrology: Past, Present, and Future. John Wiley & Sons, Ltd., Chichester, UK: 75–88.
Lancaster, J., 2000. Geometric scaling of microhabitat patches and their efficacy as refugia during disturbance. Journal of Animal Ecology 69: 442–457.
Larned, S. T., D. Thibault, D. B. Arscott & K. Tockner, 2010. Emerging concepts in temporary-river ecology. Freshwater Biology 55: 717–738.
Latron, J., P. Llorens & F. Gallart, 2009. The hydrology of Mediterranean mountain areas. Geographic Compass 3: 2045–2064.
Lawrence, J. E., K. B. Lunde, R. D. Mazor, L. A. Bêche, E. P. Mcelravy & V. H. Resh, 2010. Long-term macroinvertebrate responses to climate change: implications for biological assessment in mediterranean-climate streams. Journal of the North American Benthological Society 29: 1424–1440.
Lind, P. R., B. J. Robson & B. D. Mitchell, 2006. The influence of reduced flow during a drought on patterns of variation in macroinvertebrate assemblages across a spatial hierarchy in two lowland rivers. Freshwater Biology 51: 2282–2295.
López-Rodríguez, M. J., J. M. Tierno, S. Fenoglio, T. Bo & J. Alba-Tercedor, 2009. Life strategies of 3 Perlodidae species (Plecoptera) in a Mediterranean seasonal stream in southern Europe. Journal of the North American Benthological Society 28: 611–625.
Lytle, D. A., 2001. Disturbance regimes and life history evolution. American Naturalist 157: 525–536.
Lytle, D. A., 2002. Flash floods and aquatic insect life history evolution: evaluation of multiple models. Ecology 83: 370–385.
Lytle, D. A., 2008. Life-history and behavioural adaptations to flow regime in aquatic insects. In Lancaster, J. & R. A. Briers (eds), Aquatic Insects: Challenges to Populations. CAB International, Wallingford, UK: 122–138.
Lytle, D. A. & N. L. Poff, 2004. Adaptation to natural flow regimes. Trends in Ecology & Evolution 19: 94–100.
Lytle, D. A. & N. J. White, 2007. Rainfall cues and flash-flood escape in desert stream insects. Journal of Insect Behaviour 20: 413–423.
Maceda-Veiga, A. & A. De Sostoa, 2011. Observational evidence of the sensitivity of some fish species to environmental stressors in Mediterranean rivers. Ecological Indicators 11: 311–317.
Mackay, R. J., 1992. Colonization by Lotic Macroinvertebrates: a review of processes and patterns. Canadian Journal of Fisheries and Aquatic Sciences 49: 617–628.
Magahlães, M. F., I. J. Schlosser & M. J. Collares-Pereira, 2003. The role of life history in the relationship between population dynamics and environmental variability in two Mediterranean stream fishes. Journal of Fish Biology 63: 300–317.
Magalhães, M. F., P. Beja, C. Canas & M. J. Collares-Pereira, 2002. Functional heterogeneity of dry-season fish refugia across a Mediterranean catchment: the role of habitat and predation. Freshwater Biology 47: 1919–1934.
Magalhães, M. F., P. Beja, I. J. Schlosser & M. J. Collares- Pereira, 2007. Effects of multi-year droughts on fish assemblages of seasonally drying Mediterranean streams. Freshwater Biology 52: 1494–1510.
Magoulick, D. D. & R. M. Kobza, 2003. The role of refugia for fishes during drought: a review and synthesis. Freshwater Biology 48: 1186–1198.
Mas-Martí, E., E. García-Berthou, S. Sabater, S. Tomanova & I. Muñoz, 2010. Comparing fish assemblages and trophic ecology of permanent and intermittent reaches in a Mediterranean stream. Hydrobiologia 657: 167–180.
Medeiros, E. S. F. & L. Maltchik, 1999. The effects of hydrological disturbance on the intensity of infestation of Lernaea cyprinacea in an intermittent stream fish community. Journal of Arid Environments 43: 351–356.
Meffe, G. K., 1984. Effects of abiotic disturbance on coexistence of predator-prey fish species. Ecology 65: 1525–1534.
Merigoux, S. & S. Dolédec, 2004. Hydraulic requirements of stream communities: a case study on invertebrates. Freshwater Biology 49: 600–613.
Mesquita, M., M. M. Coelho & M. F. Magalhães, 2006. Spatial variation in fish assemblages across small Mediterranean drainages: effects of habitat and landscape context. Environmental Biology of Fishes 77: 105–120.
Mitchell, C. P., 1989. Swimming performances of some native freshwater fishes. New Zealand Journal of Marine and Freshwater Research 23: 181–187.
Morán-López, R., E. Da Silva, J. L. Pérez-Bote & C. C. Amado, 2006. Associations between fish assemblages and environmental factors for Mediterranean-type rivers during summer. Journal of Fish Biology 69: 1552–1569.
Muñoz, I., 2003. Macroinvertebrate community structure in an intermittent and a permanent Mediterranean streams (NE Spain). Limnetica 22: 107–116.
Nagrodski, A., G. D. Raby, C. T. Hasler, M. K. Taylor & S. J. Cooke, 2012. Fish stranding in freshwater systems: sources, consequences, and mitigation. Journal of Environmental Management 103: 133–141.
Nickus, U., K. Bishop, M. Erlandsson, C. D. Evans, M. Forsius, H. Laudon, D. M. Livingstone, D. Monteith & H. Thies, 2010. Direct impacts of climate change on freshwater ecosystems. In Kernan, M., R. W. Battarbee & B. Moss (eds), Climate Change Impacts on Freshwater Ecosystems. Wiley-Blackwell, Oxford: 38–64.
Ormerod, S. J., 2009. Climate change, river conservation and the adaptation challenge. Aquatic Conservation: Marine and Freshwater Ecosystems 19: 609–613.
Pérez-Quintero, J. C., 2011. Distribution patterns of freshwater molluscs along environmental gradients in the southern Guadiana River basin (SW Iberian Peninsula). Hydrobiologia 678: 65–76.
Peterson, C. G. & R. J. Stevenson, 1992. Resistance and resilience of lotic algal communities: importance of disturbance timing and current. Ecology 73: 1445–1461.
Peterson, G. D., C. R. Allen & C. S. Holling, 1998. Ecological resilience, biodiversity, and scale. Ecosystems 1: 6–18.
Pires, A. M., I. G. Cowx & M. M. Coelho, 2000. Benthic macroinvertebrate communities of intermittent streams in the middle reaches of the Guadiana Basin (Portugal). Hydrobiologia 435: 167–175.
Pires, A. M., M. F. Magalhâes, L. Moreira Da Costa, M. J. Alves & M. M. Coelho, 2008. Effects of an extreme flash flood on the native fish assemblages across a Mediterranean catchment. Fisheries Management and Ecology 15: 49–58.
Pires, D. F., A. M. Pires, M. J. Collares-Pereira & M. F. Magalhães, 2010. Variation in fish assemblages across dry-season pools in a Mediterranean stream: effects of pool morphology, physicochemical factors and spatial context. Ecology of Freshwater Fish 19: 74–86.
Platt, W. J. & J. H. Connell, 2003. Natural disturbances and directional replacement of species. Ecological Monographs 73: 507–522.
Poff, N. L., 1992. Why disturbance can be predictable: a perspective on the definition of disturbance in streams. Journal of the North American Benthological Society 11: 86–92.
Poff, N. L., 1997. Landscape filters and species traits: towards mechanistic understanding and prediction in stream ecology. Journal of the North American Benthological Society 16: 391–409.
Poff, N. L., J. D. Olden, N. K. M. Vieira, D. S. Finn, M. P. Simmons & B. C. Kondratieff, 2006. Functional trait niches of North American lotic insects: traits-based ecological applications in light of phylogenetic relationships. Journal of the North American Benthological Society 25: 730–755.
Power, M. E. & W. E. Dietrich, 2002. Food webs in river networks. Ecological Research 17: 451–471.
Power, M. E., M. S. Parker & W. E. Dietrich, 2008. Seasonal reassembly of a river food web: floods, droughts, and impacts of fish. Ecological Monographs 78: 263–282.
Resh, V. H., A. V. Brown, A. P. Covich, M. E. Gurtz, H. W. Li, G. W. Minshall, S. R. Reice, A. L. Sheldon, J. B. Wallace & R. C. Wissmar, 1988. The role of disturbance in stream ecology. Journal of the North American Benthological Society 7: 433–455.
Robson, B. J. M., J. M. Hogan & T. Forrester, 2005. Hierarchical patterns of invertebrate assemblage structure in stony upland streams change with time and flow permanence. Freshwater Biology 50: 944–953.
Robson, B. J., E. T. Chester & C. M. Austin, 2011. Why life history information matters: drought refuges and macroinvertebrate persistence in non-perennial streams subject to a drier climate. Marine and Freshwater Research 62: 801–810.
Sabater, S., A. Elosegi, V. Acuna, A. Basaguren, I. Munoz & J. Pozo, 2008. Effect of climate on the trophic structure of temperate forested streams. A comparison of Mediterranean and Atlantic streams. Science of the Total Environment 390: 475–484.
Sánchez-Montoya, M. D. M., T. Puntí, M. L. Suárez, M. R. Vidal-Abarca, M. Rieradevall, J. M. Poquet, C. Zamora-Muñoz, S. Robles, M. Alvarez, J. Alba- Tercedor, M. Toro, A. M. Pujante, A. Munné & N. Prat, 2007. Concordance between ecotypes and macroinvertebrate assemblages in Mediterranean streams. Freshwater Biology 52: 2240–2255.
Sangiorgio, F., A. Fonnesu & G. Mancinelli, 2007. Effect of drought frequency and other reach characteristics on invertebrate communities and litter breakdown in the intermittent Mediterranean River Pula (Sardinia, Italy). International Review of Hydrobiology 92: 156–172.
Sayer, M. D. J., 2005. Adaptations of amphibious fish for surviving life out of the water. Fish and Fisheries 6: 186–211.
Schäfer, R. B., B. J. Kefford, L. Metzeling, M. Liess, S. Burgert, R. Marchant, V. Pettigrove, P. Goonan & D. Nugegoda, 2011. A trait database of stream invertebrates for the ecological risk assessment of single and combined effects of salinity and pesticides in South-East Australia. The Science of the total environment 409: 2055–2063.
Skoulikidis, N. T., L. Vardakas, I. Karaouzas, A. N. Economou, E. Dimitriou & S. Zogaris, 2011. Assessing water stress in Mediterranean lotic systems: insights from an artificially intermittent river in Greece. Aquatic Sciences 73: 581–597.
Southwood, T. R. E., 1977. Habitat templet for ecological strategies. Journal of Animal Ecology 46: 336–365.
Southwood, T. R. E., 1988. Tactics, strategies and templets. Oikos 52: 3–18.
Stamp, J. D., A. T. Hamilton, L. Zheng & B. G. Bierwagen, 2010. Use of thermal preference metrics to examine state biomonitoring data for climate change effects. Journal of the North American Benthological Society 29: 1410–1423.
Stanley, E. H., S. G. Fisher & N. B. Grimm, 1997. Ecosystem expansion and contraction in streams. Bioscience 47: 427–435.
Stanley, E. H., S. M. Powers & N. R. Lottig, 2010. The evolving legacy of disturbance in stream ecology: concepts, contributions, and coming challenges. Journal of the North American Benthological Society 29: 67–83.
Statzner, B. & L. A. Bêche, 2010. Can biological invertebrate traits resolve effects of multiple stressors on running water ecosystems? Freshwater Biology 55: 80–119.
Statzner, B., A. G. Hildrew & V. H. Resh, 2001. Species traits and environmental constraints: entomological research and the history of ecological theory. Annual Review of Entomology 46: 291–316.
Statzner, B., S. Dolédec & B. Hugueny, 2004. Biological trait composition of European stream invertebrate communities: assessing the effects of various trait filter types. Ecography 27: 470–488.
Steward, A. L., D. von Schiller, K. Tockner, J. C. Marshall & S. E. Bunn, 2012. When the river runs dry: human and ecological values of dry riverbeds. Frontiers in Ecology and the Environment 10: 202–209.
Tarolli, P., M. Borga, E. Morin & G. Delrieu, 2012. Analysis of flash flood regimes in the North-Western and South-Eastern Mediterranean regions. Natural Hazards and Earth System Sciences 12: 1255–1265.
Tockner, K., D. Pennetzdorfer, N. Reiner, F. Schiemer & J. V. Ward, 1999. Hydrological connectivity, and the exchange of organic matter and nutrients in a dynamic river-floodplain system (Danube, Austria). Freshwater Biology 41: 521–535.
Townsend, C. R. & A. G. Hildrew, 1994. Species traits in relation to a habitat templet for river systems. Freshwater Biology 31: 265–275.
Townsend, C. R., S. Dolédec & M. R. Scarsbrook, 1997. Species traits in relation to temporal and spatial heterogeneity in streams: a test of habitat templet theory. Freshwater Biology 37: 367–387.
Usseglio-Polatera, P., M. Bournaud, P. Richoux & H. Tachet, 2000. Biological and ecological traits of benthic freshwater macroinvertebrates: relationships and definition of groups with similar traits. Freshwater Biology 43: 175–205.
Vanschoenwinkel, B., A. Waterkeyn, T. Vandecaetsbeek, O. Pineau, P. Grillas & L. Brendonck, 2008. Dispersal of freshwater invertebrates by large terrestrial mammals: a case study with wild boar (Sus scrofa) in Mediterranean wetlands. Freshwater Biology 53: 2264–2273.
Verberk, W. C. E. P., H. Siepel & H. Esselink, 2008. Life-history strategies in freshwater macroinvertebrates. Freshwater Biology 53: 1722–1738.
Vieira, N. K. M., W. H. Clements, L. S. Guevara & B. F. Jacobs, 2004. Resistance and resilience of stream insect communities to repeated hydrologic disturbances after a wildfire. Freshwater Biology 49: 1243–1259.
Walters, A. W., 2011. Resistance of aquatic insects to a low-flow disturbance: exploring a trait-based approach. Journal of the North American Benthological Society 30: 346–356.
Walters, A. W. & D. M. Post, 2011. How low can you go? Impacts of a low-flow disturbance on aquatic insect communities. Ecological Applications 21: 163–174.
Waterkeyn, A., O. Pineau, P. Grillas & L. Brendonck, 2010. Invertebrate dispersal by aquatic mammals: a case study with nutria Myocastor coypus (Rodentia, Mammalia) in Southern France. Hydrobiologia 654: 267–271.
Webster, J. R., M. E. Gurtz, J. J. Hains, J. L. Meyer, W. T. Swank, J. B. Waide & J. B. Wallace, 1983. Stability of stream ecosystems. In Barnes, J. R. & G. W. Minshall (eds), Stream Ecology. Plenum Press, New York: 355–395.
Wilby, R. L., H. Orr, G. Watts, R.W. Battarbee, P. M. Berry, R. Chadd, S. J. Dugdale, M. J. Dunbar, J. A. Elliott, C. Extence, D. M. Hannah, N. Holmes, A. C. Johnson, B. Knights, N. J. Milner, S. J. Ormerod, D. Solomon, R. Timlett, P. J. Whitehead & P. J. Wood, 2010. Evidence needed to manage freshwater ecosystems in a changing climate: turning adaptation principles into practice. The Science of the total environment, 408: 4150–4164.
Williams, D. D., 1985. Biotic adaptations in temporary lentic waters, with special reference to those in semi-arid and arid regions. Hydrobiologia 125: 85–110.
Williams, D. D., 1996. Environmental constraints in temporary fresh waters and their consequences for the insect fauna. Journal of the North American Benthological Society 15: 634–650.
Williams, D. D., 2006. The Biology of Temporary Waters. Oxford University Press, Oxford.
Woodward, G., D. M. Perkins & L. E. Brown, 2010. Climate change and freshwater ecosystems: impacts across multiple levels of organization. Philosophical Transactions of the Royal Society of London. Series B, Biological sciences 365: 2093–2106.
Acknowledgments
We wish to thank Dr. Amir Givati of the Israeli Hydrological Service for providing hydrological information. We thank the technical staff at the Department of Zoology, Tel-Aviv University, for assisting in the field study. We are grateful to Naomi Paz for the editorial assistance and to the anonymous reviewers for the constructive suggestions and remarks.
Author information
Authors and Affiliations
Corresponding author
Additional information
Guest editors: N. Bonada & V. H. Resh / Streams in Mediterranean climate regions: lessons learned from the last decade
Electronic supplementary material
Below is the link to the electronic supplementary material.
Rights and permissions
About this article
Cite this article
Hershkovitz, Y., Gasith, A. Resistance, resilience, and community dynamics in mediterranean-climate streams. Hydrobiologia 719, 59–75 (2013). https://doi.org/10.1007/s10750-012-1387-3
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10750-012-1387-3