Mollusken im Auengrünland des Biosphärenreservates Mittelelbe vor und nach dem extremen Sommerhochwasser 2002

Hochwasserereignisse sind von besonderer Bedeutung, da sie die Auenlandschaft räumlich und zeitlich strukturieren und so eine große Vielfalt an Habitaten schaffen. Mollusken sind von großem Artenreichtum, der in den mitteleuropäischen Flussauen am höchsten ist. Sie sind relativ leicht zu determinieren und besitzen zudem eine geringe Mobilität und dementsprechend kleine Minimalareale. Darüber hinaus sind Ökologie und Habitatansprüche der meisten Arten gut bekannt. Dadurch eignen sich Mollusken sehr gut zur ökologischen Charakterisierung (Indikation) und zur naturschutzfachlichen Bewertung von Auenökosystemen. Obwohl in zahlreichen Studien bereits Molluskenzönosen in Auen beschrieben wurden, ist über die Reaktion von Mollusken auf Hochwasser, insbesondere Extremhochwasser, wenig bekannt, zumal kaum Daten vorliegen, die den Zustand vor und nach einem Extremereignis beschreiben. In diesem Beitrag werden die kurz- und mittelfristigen Auswirkungen des Sommerhochwassers 2002 auf Molluskengemeinschaften im Auengrünland der Mittleren Elbe beschrieben

Molluskengemeinschaften im Deichrückverlegungsgebiet Roßlauer Oberluch im Biosphärenreservat Mittelelbe

Mollusken eignen sich aufgrund ihrer spezifischen Eigenschaften sehr gut zur ökologischen Charakterisierung, naturschutzfachlichen Bewertung und Beweissicherung bei bevorstehenden Veränderungen innerhalb ihrer Lebensräume. Durch ihre geringe aktive Mobilität sind sie sehr stark an ihren Lebensraum gebunden. Ihre Biologie, Ökologie und Habitatansprüche sind gut bekannt. Gerade in Flussauen erreichen Mollusken sehr hohe Arten- und je nach standörtlichen Verhältnissen sehr hohe Individuenzahlen. Im Herbst 2006 sowie im Frühjahr und Herbst 2007 wurden Molluskenproben auf den Wiesen im Roßlauer Oberluch und auf zwei Referenzstandorten in der Kliekener Altaue entnommen mit dem Ziel, den Status Quo vor der Deichöffnung festzuhalten und die Entwicklung dieser Artengruppe nach der Deichrückverlegungsmaßnahme zu analysieren. Bislang liegen die Status-Quo-Ergebnisse der Herbst- und Frühjahrsaufsammlungen aus den Jahren 2006 und 2007 vor

A highly specific and sensitive serological assay detects SARS‑CoV‑2 antibody levels in COVID‑19 patients that correlate with neutralization

Objective The severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) pandemic challenges national health systems and the global economy. Monitoring of infection rates and seroprevalence can guide public health measures to combat the pandemic. This depends on reliable tests on active and former infections. Here, we set out to develop and validate a specific and sensitive enzyme linked immunosorbent assay (ELISA) for detection of anti SARS-CoV-2 antibody levels. Methods In our ELISA, we used SARS-CoV-2 receptor-binding domain (RBD) and a stabilized version of the spike (S) ectodomain as antigens. We assessed sera from patients infected with seasonal coronaviruses, SARS-CoV-2 and controls. We determined and monitored IgM-, IgA- and IgG-antibody responses towards these antigens. In addition, for a panel of 22 sera, virus neutralization and ELISA parameters were measured and correlated. Results The RBD-based ELISA detected SARS-CoV-2-directed antibodies, did not cross-react with seasonal coronavirus antibodies and correlated with virus neutralization (R2 = 0.89). Seroconversion started at 5 days after symptom onset and led to robust antibody levels at 10 days after symptom onset. We demonstrate high specificity (99.3%; N = 1000) and sensitivity (92% for IgA, 96% for IgG and 98% for IgM; > 10 days after PCR-proven infection; N = 53) in serum. Conclusions With the described RBD-based ELISA protocol, we provide a reliable test for seroepidemiological surveys. Due to high specificity and strong correlation with virus neutralization, the RBD ELISA holds great potential to become a preferred tool to assess thresholds of protective immunity after infection and vaccination

Hydrological gradient and species traits explain gastropod diversity in floodplain grasslands

Floodplains are characterized by high spatial and temporal heterogeneity. Despite low active mobility, Central European floodplain gastropod communities show a high species diversity. They are supposed to have developed a large range of resistance and/or resilience strategies to survive in the highly variable and frequently disturbed floodplain habitats. Relating gastropod diversity and species traits to hydrological conditions, we tested how different groundwater and flood regimes affect gastropod diversity and identified the main species traits favouring their survival in highly dynamic floodplain grasslands. Species richness, species diversity and functional diversity peaked at intermediate flood disturbance and moisture levels. Harsher environmental conditions in either dryer or frequently flooded habitats restricted the gastropod communities to a few specialized species. Morphological and life‐history traits showed significant variations along the hydrological gradient. Shell character and mode of reproduction proved to be important functional determinants for gastropod community composition. Species with strongly calcified shells, which limit the risk of injuries in case of dislodgment, were more often found in flood prone sites. Uniparental reproduction dominated in the driest as well as in highly flood‐disturbed habitats, providing reproductive assurance where harsh environmental conditions may reduce the number of potential mates. Intermediate disturbance and moisture levels favoured local gastropod diversity whereas dryer or highly flood‐disturbed habitats sheltered specialized species. Therefore, the maintenance of areas with different disturbance and moisture levels is of major importance in favouring taxonomical and functional mollusc diversity across the whole floodplain

Suitability of Molluscs as Bioindicators for Meadow- and Flood-Channels of the Elbe-Floodplains

The goals of the subproject “molluscs” within the inter-disciplinary research project “Indicator systems for the characterisation and prediction of ecological changes in floodplain systems” were: – to develop further existing mollusc-based indicator systems of site quality and to test their transferability, – to characterise grassland sites within the recent floodplains of three study areas along the Elbe River, – to analyse the relationships between indicator species-/groups and abiotic parameters, – to compile and use selected species traits in the analytical process. The results clearly show several characteristic species groups related to the hydrology of the sites (i.e. inundation and desiccation regime) and on to the degree of agricultural use. These dependencies can be interpreted by the simultaneous analysis of the species traits. “Models” are proposed, that are applicable to nature protection measures at the landscape scale