Spatial autocorrelation and dispersal limitation in freshwater organisms

Dispersal can limit the ranges of species and the diversity of communities. Despite its importance, little is known about its role in freshwater habitats and its relation to habitat type (lentic vs. lotic), especially for organisms with cryptic dispersal methods such as plankton. Poor dispersers are expected to show more clumped distributions or greater spatial autocorrelation (SA) in community composition than good dispersers. We examined patterns of SA across freshwater taxa with different dispersal modes (active vs. passive) and their association with habitat type (lake vs. stream) using 18 spatially explicit community composition data sets. We found significant relationships between SA and body size among taxa in lake habitats, but not in streams. However, the increase in SA with body size in lakes was driven entirely by fishes—organisms ranging in size from diatoms to macro-invertebrates showed equivalent levels of SA. These results support the idea that large organisms are less effective dispersers in aquatic environments, resulting in greater SA in community structure over broad scales. Streams may be effectively more connected than lakes as patterns of SA and body size were weaker in lotic habitats. Our data suggest that the critical threshold where greater body size increases dispersal limitation seems to come at the juncture between invertebrates and vertebrates rather than that between unicellular and multicellular organisms as has been previously suggested. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Effects of preservation on dry- and ash-free dry weight biomass of some common aquatic macro-invertebrates

The effect of preservation methods on dry weight (DW) and ash-free dry weight (AFDW) of Radix peregra (Gastropoda), Asellus aquaticus (Isopoda), Erpobdella octoculata (Hirudinea) and Glyptotendipes sp. (Chironomidae) was studied. Ethanol, formaldehyde, and Bouin were used as preservative. In case of preservation of macro-invertebrates in ethanol substancial changes in DW and AFDW biomass were observed. In the four different taxa the loss in DW varied between 7.2–21.9% after a 3 month preservation period in 70% ethanol. A comparatively small range in AFDW loss (16.2–19.7%) was found. Changes in DW and AFDW biomass during preservation were significantly affected by the duration of the preservation, by temperature, light conditions and the volume of the preservative. The changes in AFDW were also significantly affected by the concentration of the preservatives. Preservation in 10% formaldehyde did not cause significant changes in DW and AFDW biomass.Contribution nr. 42 of the nymphalid project.     

www.freshwaterecology.info – An online tool that unifies,standardises and codifies more than 20,000 European freshwater organisms and their ecological preferences

Species’ ecological preferences are progressively important for understanding distribution patterns, for conserving biodiversity or for assessing and evaluating the status of freshwater ecosystems. Comprehensive databases compiling species traits are already established in the terrestrial realm, but widely missing in freshwater science. We established a database for European taxa of five aquatic organism groups by compiling information on taxonomy, ecology and distribution based on extensive literature surveys, which were performed by experts for the targeted organism groups. The database includes fishes (654 taxa/21 ecological preferences), macro-invertebrates (8586/40), macrophytes (1083/5), diatoms (8868/36) and phytoplankton (1976/4). It is available online with various options and tools for finding information and has currently over 800 users. The reviewed literature as well as examples given in this paper, highlight the importance of the general availability of knowledge on ecological preferences for various aspects in ecological assessment. Freshwaterecology.info is considered a service for basic research, applied scientists, water managers or other stakeholders. It serves as base for bioassessment and monitoring.     

Study on the effects of arsenic pollution on the communities of macro-invertebrate in Xieshui River

In 2006 and 2007, five sampling stations were set up in Xieshui River and its tributaries to study the macro-invertebrate communities, and measure physicochemical parameters and contents of different forms of arsenic. A comparative analysis and multivariate statistical methods were used to explore the effects of arsenic pollution on the macro-invertebrate communities. In this study, sixty species were identified, including 39 aquatic insects, 10 mollusks, 5 oligochaetes, 1 crustacean, and 5 others. Results of the comparative analysis indicated that the macro-invertebrate communities at the station with serious arsenic pollution tended to be simple and showed a significant decreasing in density, biomass, and biodiversity in comparison with the other stations. Arsenic pollution also had a major effect on the dominant species and groups. For instance, EPT taxa disappeared at the station with serious arsenic pollution, and chironomids that belong to the genus Cardiocladius were very tolerant to high concentrations of arsenic. Results of the functional feeding groups (FFGs) analysis indicated that the predators were more tolerant to arsenic pollution, while the scrapers, filterers, and collectors were relatively sensitive to arsenic pollution. Results of a non-metric multidimensional scaling (nMDS) analysis showed that when the concentration of inorganic arsenic decreased to the range between the criteria continuous concentration (CCC) and the criteria maximum concentration (CMC), the effects of inorganic arsenic on the macro-invertebrate communities seemed to be insignificant. Results of a BVSTEP (Bio-Env Step-Wise Procedure) analysis showed that water temperature, rotifer density, trivalent arsenic, pentavalent arsenic, and total inorganic arsenic greatly influenced species appearance, while rotifer density and various forms of arsenic had a considerable impact on the species composition.     

Determining tipping points in aquatic ecosystems: The case of biodiversity and chlorophyll α relations in fish pond systems

The management of biodiversity in aquatic ecosystems requires knowing the state of water quality linked to regime shifts in various taxonomic groups. We examine this question by studying the fish ponds in the Dombes region, France. These waterbodies are characterized by a high diversity of species. High levels of nutrients due to certain fish farming practices may cause significant eutrophication leading to loss in biodiversity and a shift from high coverage of aquatic vegetation to phytoplankton dominance may also be observed. The aim of this study is to assess tipping points, thresholds for effect, along a gradient of chlorophyll α in different taxonomic groups: aquatic vascular plants, phytoplankton, dragonflies and aquatic macro-invertebrates. Tipping points are analyzed with three different statistical methods: a method which evaluates tipping points with a difference in the mean (TMEAN), a second method which evaluates tipping point by comparing the mean and linear regressions before and after the tipping point (FSTAT) and third a method which evaluates linear regressions with a pivotal tipping point (SEGMENTED). We also compare tipping points for the different taxonomic groups using five different diversity indices: Observed richness, Jackknife first order, Fisher's alpha, Simpson index and Evenness.Our results show that there is an important variation in tipping points following the three statistical methods, but the SEGMENTED is the best method for evaluating tipping points. We observe a high difference of tipping point values for the different taxonomic groups depending on the diversity indices used. Jackknife first order has a better performance to evaluate a eutrophic change according to the diversity than the other indices.In all taxonomic groups, aquatic vascular plants are the most impacted by the chlorophyll α and almost all their tipping points are observed around 60 μg/L chlorophyll α concentrations. No significant relationship is found between chlorophyll α and phytoplankton diversity, while the two other groups, dragonflies and macro-invertebrates, are both impacted by the chlorophyll α but their relevant tipping points are situated in higher values than aquatic vascular plants.     

Impacts of deep open drains on water quality and biodiversity of receiving waterways in the Wheatbelt of Western Australia

Extensive networks of deep drains are being built in Western Australia to reduce the effects of dryland salinity on agricultural lands. Most of these drains discharge into natural river and wetland systems, with little consideration given to the environmental impacts. This study examined the downstream ecological impacts of one of the oldest deep drain networks in Western Australia, located in the Wakeman subcatchment near Narembeen. Twelve sites were sampled bi-monthly from October 2004 to September 2006. On each occasion, water quality parameters were measured and the macro-invertebrate fauna was sampled. Significant differences in water quality and macro-invertebrates were observed between the untreated sites and those affected by the drain discharge. Surface water at untreated sites was always fresh (<3 ppt), alkaline (pH 7.6–8.9) and turbid (49–600 NTU), whereas treatment sites were always saline (28–147 ppt), acidic (pH 1.9–3.8) and mostly clear (0–100 NTU). No recovery of water quality was observed with distance from discharge point (20 km). Invertebrates reflected differences in water quality, with drain discharge resulting in a sharp decline in species richness, and significant changes in macro-invertebrate community composition. Sites affected by drain discharge were dominated by fly larvae such as Orthocladiinae and Ceratopogonidae. Microcrustaceans were far more abundant at sites unaffected by drainage. The ecological values of Wheatbelt streams are likely to be further compromised by discharge of poor water quality from deep drainage. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users. Handling editor: K. Martens