Knut Mehler scite author profile

Bivalves are ubiquitous members of freshwater ecosystems and responsible for important functions and services. The present paper revises freshwater bivalve diversity, conservation status and threats at the global scale and discusses future research needs and management actions. The diversity patterns are uneven across the globe with hotspots in the interior basin in the United States of America (USA), Central America, Indian subcontinent and Southeast Asia. Freshwater bivalves are affected by multiple threats that vary across the globe; however, pollution and natural system (habitat) modifications being consistently found as the most impacting. Freshwater bivalves are among the most threatened groups in the world with 40% of the species being near threatened, threatened or extinct, and among them the order Unionida is the most endangered. We suggest that global cooperation between scientists, managers, politicians and general public, and application of new technologies (new generation sequencing and remote sensing, among others) will strengthen the quality of studies on the natural history and conservation of freshwater bivalves. Finally, we introduce

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Biomonitoring using invasive species in a large Lake: Dreissena distribution maps hypoxic zones

Karatayev

Burlakova

Mehler

et al. 2018

Journal of Great Lakes Research

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Due to cultural eutrophication and global climate change, an exponential increase in the number and extent of hypoxic zones in marine and freshwater ecosystems has been observed in the last few decades. Hypoxia, or low dissolved oxygen (DO) concentrations, can produce strong negative ecological impacts and, therefore, is a management concern. We measured biomass and densities of Dreissena in Lake Erie, as well as bottom DO in 2014 using 19 high frequency data loggers distributed throughout the central basin to validate a three-dimensional hydrodynamic-ecological lake model. We found that a deep, offshore hypoxic zone was formed by early August, restricting the Dreissena population to shallow areas of the central basin. Deeper than 20 m, where bottom hypoxia routinely develops, only young of the year mussels were found in small numbers, indicating restricted recruitment and survival of young Dreissena. We suggest that monitoring Dreissena distribution can be an effective tool for mapping the extent and frequency of hypoxia in * Corresponding author.

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Sonar technology and underwater imagery analysis can enhance invasive Dreissena distribution assessment in large rivers

et al. 2016

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Lake morphometry determines Dreissena invasion dynamics

Karatayev

Burlakova

et al. 2021

Biol Invasions

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Dynamics of the seasonal migration of Round Goby (Neogobius melanostomus, Pallas 1814) and implications for the Lake Ontario food web

Pennuto

Mehler

Weidel

et al. 2021

Ecology of Freshwater Fish

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Seasonal habitat shifts are a common phenomenon in fish life histories, with numerous species moving seasonally to spatially disjunct sites for a wide range of activities like breeding, overwintering, juvenile development or summer feeding (Burton & Burton, 2018). The cues and senses used by fish to initiate and maintain seasonal movements vary considerably across species, but most commonly include some combination of temperature, light and olfaction

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Knut Mehler

Conservation of freshwater bivalves at the global scale: diversity, threats and research needs

Biomonitoring using invasive species in a large Lake: Dreissena distribution maps hypoxic zones

Sonar technology and underwater imagery analysis can enhance invasive Dreissena distribution assessment in large rivers

Lake morphometry determines Dreissena invasion dynamics

Dynamics of the seasonal migration of Round Goby (Neogobius melanostomus, Pallas 1814) and implications for the Lake Ontario food web

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