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THOMAS A. DAVIDSON ANSON W. MACKAY PIOTR WOLSKI RICHARD MAZEBEDI MIKE MURRAY‐HUDSON MARTIN TODD 《Freshwater Biology》2012,57(6):1253-1265
1. Flood‐pulsed wetlands make vital contributions to local and global biodiversity. However, the patterns and controls of spatial and temporal variation in aquatic biodiversity in flood‐pulsed wetlands are not well understood. We analysed the relationship between variation in hydrological regime and the patterns of aquatic biodiversity in a large pristine flood‐pulsed wetland, the Okavango Delta, Botswana. 2. Surveys of water chemistry, diatoms and macroinvertebrates were conducted over the seasonal phases of the flood pulse. Hydrological variables of flood frequency and hydroperiod class were collated from 16 years of satellite images. Multivariate regression trees and generalised least squares regression were used to determine the chief controls of community composition and taxon richness. 3. Hydroperiod class, phase of the flood and conductivity explained 32% and 43% of the variation in diatom and invertebrate taxon richness, respectively. There was a negative relationship between hydroperiod class and invertebrate taxon richness on the rising, peak and receding flood, whereas at low flood there was no significant relationship. Multivariate regression tree analysis revealed hydroperiod class, phase of the flood and conductivity as the dominant forces shaping invertebrate and diatom community composition. 4. Seasonal and spatial variation in hydrological conditions are the principal drivers of variation in aquatic biodiversity in flood‐pulsed wetlands. In pristine flood‐pulsed wetlands, increased productivity caused by the arrival of the flood waters appears to override disturbance and connectivity in shaping taxon richness and community composition. Thus, these data suggest that the maintenance of a rich mosaic of habitats covering a broad range of hydroperiod is the key to preserving aquatic biodiversity and natural ecosystem function in flood‐pulsed wetlands. 相似文献
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SERGIO NUDELMAN RACHEL GALUN URIEL KITRON REW SPIELMAN 《Medical and veterinary entomology》1988,2(2):161-169
We determined whether exposure to a short day-light regime of 14 h 15 min induces ovarian diapause in Culex pipiens L. mosquitoes from Israel and whether differences occur in certain morphological, physiological and behavioural traits. Samples from nineteen localities in Israel, from 33 degrees 05' N to 29 degrees 35' N latitude, conformed to the morphological criteria of Cx pipiens, sensu stricto (i.e. wider spread of dorsal than of ventral arms of the aedeagus) as determined by negative DV/D ratios of the male. Autogenous females occurred at frequencies of 4-55% in all areas of Israel throughout the breeding season. No mating barriers were detected between individuals of autogenous and anautogenous genotypes. Autogenous females were no more prevalent from polluted or enclosed breeding sites than from others with various degrees of openness. In general, Cx pipiens females fed equally well on human (35% engorgement) and avian (22% engorgement) hosts (P less than 0.01). Although females from the southern part of the study region appeared to be incapable of ovarian diapause, at least some of those from the north experienced diel-mediated diapause. We conclude that, in the Middle East, the 33rd parallel provides a southern limit to the range of Cx pipiens with capability for diel-mediated ovarian diapause, but that non-diapausing Cx pipiens s.l. are present at least as far south as Elat (20 degrees 25' N) on the coast of the Gulf of Aquaba. 相似文献
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CARL D. SAYER AMY BURGESS KATERINA KARI THOMAS A. DAVIDSON SYLVIA PEGLAR HANDONG YANG NEIL ROSE 《Freshwater Biology》2010,55(3):565-583
1. Submerged macrophyte and phytoplankton components of eutrophic, shallow lakes have frequently undergone dynamic changes in composition and abundance with important consequences for lake functioning and stability. However, because of a paucity of long‐term survey data, we know little regarding the nature, direction and sequencing of such changes over decadal–centennial or longer timescales. 2. To circumvent this problem, we analysed multiple (n = 5) chronologically correlated sediment cores for plant macro‐remains and a single core for pollen and diatoms from one small, shallow, English lake (Felbrigg Hall Lake, Norfolk, U.K.), documenting 250 years of change to macrophyte and algal communities. 3. All five cores showed broadly similar stratigraphic changes in macrophyte remains with three distinct phases of macrophyte development: Myriophyllum–Chara–Potamogeton (c. pre‐1900), to Ceratophyllum–Chara–Potamogeton (c. 1900–1960) and finally to Zannichellia–Potamogeton (c. post‐1960). Macrophyte species richness declined from at least 10 species pre‐1900 to just four species at the present day. Additionally, in the final Zannichellia–Potamogeton phase, a directional shift between epi‐benthic and phytoplankton‐based primary production was indicated by the diatom data. 4. Based on macrophyte–seasonality relationships established for the region, concomitant with the final shift to Zannichellia–Potamogeton, we infer a reduction in the seasonal duration of plant dominance (plant‐covered period). Furthermore, we hypothesise that this change in species composition resulted in a situation whereby macrophyte populations were seasonally ‘sandwiched’ between two phytoplankton peaks in spring and late summer as observed in the contemporary lake. 5. We suggest that eutrophication‐induced reductions in macrophyte species richness, especially if the number of plant‐seasonal strategies is reduced, may constrict the plant growing season. In turn, this may render a shallow lake increasingly vulnerable to seasonal invasions of phytoplankton resulting in further species losses in the plant community. Thus, as part of a slow (over perhaps 10–100s of years) and self‐perpetuating process, macrophytes may be gradually pushed out by phytoplankton without the need for a perturbation as required in the alternative stable states model of plant loss. 相似文献
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