Your search keyword '"Van Bocxlaer B"' showing total 29 results

1. Integrative phylogenetic, phylogeographic and morphological characterisation of the Unio crassus species complex reveals cryptic diversity with important conservation implications

Author

Lopes-Lima, M., Geist, J., Egg, S., Beran, L., Bikashvili, A., Van Bocxlaer, B., Bogan, A.E., Bolotov, I.N., Chelpanovskaya, O.A., Douda, K., Fernandes, V., Gomes-dos-Santos, A., Gonçalves, D.V., Gürlek, M.E., Johnson, N.A., Karaouzas, I., Kebapçı, Ü., Kondakov, A.V., Kuehn, R., Lajtner, J., Mumladze, L., Nagel, K.-O., Neubert, E., Österling, M., Pfeiffer, J., Prié, V., Riccardi, N., Sell, J., Schneider, LD., Shumka, S., Sîrbu, I., Skujienė, G., Smith, CH., Sousa, R., Stöckl, K., Taskinen, J., Teixeira, A., Todorov, M., Trichkova, T., Urbańska, M., Välilä, S., Varandas, S., Veríssimo, J., Vikhrev, I.V., Woschitz, G., Zając, K., Zając, T., Zanatta, D., Zieritz, A., Zogaris, S., and Froufe, E.

Published

2024

2. Plio-Pleistocene sedimentation in West Turkana (Turkana Depression, Kenya, East African Rift System): Paleolake fluctuations, paleolandscapes and controlling factors

Author

Nutz, A., Schuster, M., Barboni, D., Gassier, G., Van Bocxlaer, B., Robin, C., Ragon, T., Ghienne, J.-F., and Rubino, J.-L.

Published

2020

3. Environmental heterogeneity predicts species richness of freshwater mollusks in sub-Saharan Africa

Author

Hauffe, T., Schultheiß, R., Van Bocxlaer, B., Prömmel, K., and Albrecht, C.

Published

2016

4. ICDP workshop on the Lake Tanganyika Scientific Drilling Project: a late Miocene–present record of climate, rifting, and ecosystem evolution from the world's oldest tropical lake

Author

Russell, J., Barker, P., Cohen, A., Ivory, S., Kimirei, I., Lane, C., Leng, M., Maganza, N., McGlue, M., Msaky, E., Noren, A., Park Boush, L., Salzburger, W., Scholz, C., Tiedemann, R., Nuru, S., Albrecht, C., Ali, R., Arrowsmith, R., Asanga, D., Asmerom, Y., Bakundukize, C., Bauersachs, T., Beck, C., Berke, M., Beverley, E., Blaauw, M., Boush, L., Brown, E., Campisano, C., Carrapa, B., Castaûeda, I., Dee, S., Deino, A., Ebinger, C., Ellis, G., Foerster, V., Fontijn, K., Gehrels, G., Indemaur, A., Jovanovska, E., Junginger, A., Kaboth, S., Kallmeyer, J., King, L., Konecky, B., Mark, D., McIntyre, P., Michel, E., Mkuu, D., Morgan, L., Mtetela, C., Muderwha, N., Muirhead, J., Mumbi, C., Muschick, M., Nahimana, D., Ngowi, V., Njiko, P., Nkenyeli, S., Nkotagu, H., Ntakimazi, G., Oppo, D., Purkamo, L., Rick, J., Roberts, H., Ronco, F., Sangweni, C., Shaghude, Y., Shigela, J., Shillington, D., Sophia, C., Sier, M., Soreghan, M., Spanbauer, T., Spencer-Jones, C., Staff, R., Stone, J., Todd, J., Trauth, M., van Bocxlaer, B., Viehberg, F., Vogel, H., Vonhof, H., Wolff, C., Wu, Q., Yost, C., Zeeden, C., Brown University, Lancaster University, Department of Geosciences, University of Arizona, University of Arizona, Pennsylvania State University (Penn State), Penn State System, Tanzania Fisheries Research Institute, University of Cambridge [UK] (CAM), British Geological Survey [Keyworth], British Geological Survey (BGS), Tanzania Petroleum Development Corporation, University of Kentucky, University of Minnesota [Duluth], University of Minnesota System, University of Connecticut (UCONN), University of Basel (Unibas), Syracuse University, University of Potsdam, Justus-Liebig-Universität Gießen (JLU), Petroleum Upstream Regulatory Authority, Arizona State University [Tempe] (ASU), The University of New Mexico [Albuquerque], University of Burundi, University of Kiel, Hamilton College, University of Notre Dame [Indiana] (UND), University of Houston, Queen's University [Kingston, Canada], University of Massachusetts [Amherst] (UMass Amherst), University of Massachusetts System (UMASS), Rice University [Houston], Berkeley Geochronology Center (BGC), Tulane University, United States Geological Survey (USGS), University of Cologne, University of Brussels, University of Tübingen, GeoForschungsZentrum - Helmholtz-Zentrum Potsdam (GFZ), University of Rhode Island (URI), University of Washington [Seattle], Scottish Universities Environmental Research Centre (SUERC), University of Glasgow-University of Edinburgh, University of Wisconsin-Madison, The Natural History Museum [London] (NHM), University of Dar es Salaam (UDSM), Hydrobiology Laboratory - Uvira, Tanzania Wildlife Research Institute (TAWIRI), University of Bern, University of Louisiana, Geological Survey of Finland, University of Wyoming (UW), Aberystwyth University, Lamont-Doherty Earth Observatory (LDEO), Columbia University [New York], Nanjing Institute of Geography and Limnology (Niglas), Chinese Academy of Sciences [Beijing] (CAS), CNIEH, University of Oklahoma (OU), University of Texas at Austin [Austin], Durham University, University of Glasgow, Indiana State University, Évolution, Écologie et Paléontologie (Evo-Eco-Paleo) - UMR 8198 (Evo-Eco-Paléo), Université de Lille-Centre National de la Recherche Scientifique (CNRS), Max Planck Institute for Chemistry (MPIC), Max-Planck-Gesellschaft, Leibnitz Institute of Applied Geophysics, Department of Geosciences [University of Arizona], University of Kentucky (UK), University of Potsdam = Universität Potsdam, Justus-Liebig-Universität Gießen = Justus Liebig University (JLU), Université libre de Bruxelles (ULB), Geological Survey of Finland = Geologian tutkimuskeskus tuottaa (GKT), and Évolution, Écologie et Paléontologie (Evo-Eco-Paleo) - UMR 8198 (Evo-Eco-Paléo (EEP))

Subjects

010504 meteorology & atmospheric sciences, Environmental change, Earth science, [SDE.MCG]Environmental Sciences/Global Changes, Energy Engineering and Power Technology, Context (language use), Stratigraphie, 010502 geochemistry & geophysics, Sciences de l'ingénieur, 01 natural sciences, Paleoclimatology, Tropical climate, 550 Earth sciences & geology, 0105 earth and related environmental sciences, Mechanical Engineering, Scientific drilling, Géochronologie, Sédimentologie, lcsh:QE1-996.5, Biosphere, 15. Life on land, lcsh:Geology, Mécanique sectorielle, 13. Climate action, [SDU.STU.CL]Sciences of the Universe [physics]/Earth Sciences/Climatology, Paleoecology, 570 Life sciences, biology, Climatologie, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, Global cooling, Geology, Géodynamique et tectonique

Abstract

The Neogene and Quaternary are characterized by enormous changes in global climate and environments, including global cooling and the establishment of northern high-latitude glaciers. These changes reshaped global ecosystems, including the emergence of tropical dry forests and savannahs that are found in Africa today, which in turn may have influenced the evolution of humans and their ancestors. However, despite decades of research we lack long, continuous, well-resolved records of tropical climate, ecosystem changes, and surface processes necessary to understand their interactions and influences on evolutionary processes. Lake Tanganyika, Africa, contains the most continuous, long continental climate record from the mid-Miocene (∼ 10 Ma) to the present anywhere in the tropics and has long been recognized as a top-priority site for scientific drilling. The lake is surrounded by the Miombo woodlands, part of the largest dry tropical biome on Earth. Lake Tanganyika also harbors incredibly diverse endemic biota and an entirely unexplored deep microbial biosphere, and it provides textbook examples of rift segmentation, fault behavior, and associated surface processes. To evaluate the interdisciplinary scientific opportunities that an ICDP drilling program at Lake Tanganyika could offer, more than 70 scientists representing 12 countries and a variety of scientific disciplines met in Dar es Salaam, Tanzania, in June 2019. The team developed key research objectives in basin evolution, source-to-sink sedimentology, organismal evolution, geomicrobiology, paleoclimatology, paleolimnology, terrestrial paleoecology, paleoanthropology, and geochronology to be addressed through scientific drilling on Lake Tanganyika. They also identified drilling targets and strategies, logistical challenges, and education and capacity building programs to be carried out through the project. Participants concluded that a drilling program at Lake Tanganyika would produce the first continuous Miocene-present record from the tropics, transforming our understanding of global environmental change, the environmental context of human origins in Africa, and providing a detailed window into the dynamics, tempo and mode of biological diversification and adaptive radiations., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2020

5. Diversification dynamics of freshwater bivalves (Unionidae: Parreysiinae: Coelaturini) indicate historic hydrographic connections throughout the East African Rift System

Author

Ortiz-Sepulveda, CM, Stelbrink, B, Vekemans, X, Albrecht, C, Riedel, F, Todd, JA, Van Bocxlaer, B, Ortiz-Sepulveda, CM, Stelbrink, B, Vekemans, X, Albrecht, C, Riedel, F, Todd, JA, and Van Bocxlaer, B

Abstract

Invertebrates are exceptionally diverse, but many are in decline because of anthropogenic changes to their habitat. This situation is particularly problematic for taxa that are not well monitored or taxonomically poorly understood, because the lack of knowledge hampers conservation. Despite their important functional role in freshwater ecosystems, African bivalves of the family Unionidae remain poorly studied compared to their highly threatened relatives in Europe, the U.S.A. and Canada. To resolve relationships and to study diversification dynamics in space and time, we performed time-calibrated phylogenetic studies and biogeographical modeling on the unionids from the East African Rift System and surroundings, including representatives of all currently recognized Afrotropical genera except for Brazzaea (and Unio from southern Africa). Our analyses indicate that all sampled Afrotropical unionids belong to the tribe Coelaturini (subfamily Parreysiinae), as does the genus Moncetia from Lake Tanganyika, which is currently attributed to the family Iridinidae. Colonization of Africa from Eurasia by Parreysiinae occurred ~17 Ma ago, and the subsequent diversification of Coelaturini in Africa continued at a steady pace, although net diversification decreased over time as more niches and ecoregions became occupied. Clades in Coelaturini largely reflect drainage basins, with the oldest lineages and highest regional diversity occurring in Lake Tanganyika, followed by the Congo Basin watershed in general. The species assemblage of Lake Tanganyika reflects multiple independent events of colonization and intralacustrine diversification since the Late Miocene or Early Pliocene. The clades of other regions, including that containing the species from Lake Malawi, are comparatively young. Biogeographical analyses indicate that the colonization history was mainly driven by cladogenesis in sympatry, whereas few anagenetic events contributed to the modern distribution of Coelaturini., The attached document is the authors’ final accepted/submitted version of the journal article. You are advised to consult the publisher’s version if you wish to cite from it., NHM Repository

Published

2020

6. Diversification dynamics in freshwater bivalves (Unionidae) from the East African Rift

Author

Anon, Ortiz-Sepulveda, C, Stelbrink, B, Poux, C, Monnet, C, Albrecht, C, Todd, JA, Michel, E, Van Bocxlaer, B, Anon, Ortiz-Sepulveda, C, Stelbrink, B, Poux, C, Monnet, C, Albrecht, C, Todd, JA, Michel, E, and Van Bocxlaer, B

Abstract

Invertebrates are exceptionally diverse, but declining because of anthropogenic changes to their habitat, as exemplified by freshwater bivalves in Europe and North America. Much less information is available for African freshwater bivalves, especially for Unionidae, which comprise 9 genera and ~40 nominal species, many of which are endemic to African ancient lakes. The phylogenetic position of most of these genera and species remains uncertain, and their conservation status unassessed. Here, we present preliminary results of phylogenetic studies on the Unionidae of the East African Rift. We integrate a phylogenetic backbone based on four gene fragments with (1) sampling information to examine geographic patterns of diversity and with (2) geometric morphometrics of shell shape to examine the relation between morphological disparity and molecular diversity. African Unionidae apart from ‘Cafferia’ form a monophyletic clade, and the basal splits in this clade occur between the reciprocally monophyletic genera Pseudospatha and Grandidieria, both of which are currently endemic to Lake Tanganyika. Mweruella, Nyassunio and Prisodontopsis are also monophyletic in the preliminary analyses as is Nitia, although this latter taxon is nested within Coelatura, which highlights the need of systematic revisions. Biogeographic analyses indicate a statistically significant North-to-South colonization of the East African Rift by Coelatura sensu lato. Beyond deep phylogenetic splits among individual clades, limited molecular differentiation is observed within most clades, calling for population genetic studies. Ongoing morphometric analyses suggest strong morphological differentiation among several clades, but substantial disparity in shell shape is observed within many clades, which needs further examination., This document is the final published abstract of a conference presentation, details available on the conference website http://www.sial-online.org/conferences/sial8., NHM Repository

Published

2019

7. Modern and early Holocene mollusc fauna of the Ounianga lakes (northern Chad): implications for the palaeohydrology of the central Sahara

Author

Van Bocxlaer, B., Verschuren, D., Schettler, G., and Kröpelin, S.

Subjects

550 - Earth sciences

Abstract

The fresh and saline lakes of Ounianga Kebir and Serir in northeastern Chad are among the very few permanent aquatic ecosystems currently existing in the hyper-arid core of the Sahara desert. The confirmed modern fauna of aquatic molluscs at Ounianga comprises three widespread species (Melanoides tuberculata, Biomphalaria pfeifferi and Lymnaea natalensis), of which only the first appears to maintain a thriving population. We recovered seven more species of gastropods, among which one is new to science (Gabbiella ouniangaensis), and one bivalve species from early Holocene outcrops of diatomaceous limestone at Ounianga Serir. All species except one are known to be commonly spread between lake and river systems by birds, and in its entirety this species-rich fossil mollusc fauna of Ounianga Serir resembles that of other Saharan lake sites known to have been hydrologically isolated during the early Holocene. The impoverished modern mollusc fauna, which lacks even the widespread and opportunistic species Bulinus truncatus, may have become established relatively recently through new colonisation events, following eradication of the early Holocene mollusc fauna during a later episode of high salinity or desiccation.

Published

2011

8. Environmental heterogeneity predicts species richness of freshwater mollusks in sub-Saharan Africa

Author

Hauffe, T., primary, Schultheiß, R., additional, Van Bocxlaer, B., additional, Prömmel, K., additional, and Albrecht, C., additional

Published

2014

9. Stratigraphy and paleoenvironments of the early to middle Holocene Chipalamawamba Beds (Malawi Basin, Africa)

Author

Van Bocxlaer, B., primary, Salenbien, W., additional, Praet, N., additional, and Verniers, J., additional

Published

2012

10. Why Do Some Lineages Radiate While Others Do Not? Perspectives for Future Research on Adaptive Radiations.

Author

De-Kayne R, Schley R, Barth JMI, Campillo LC, Chaparro-Pedraza C, Joshi J, Salzburger W, Van Bocxlaer B, Cotoras DD, Fruciano C, Geneva AJ, Gillespie R, Heras J, Koblmüller S, Matthews B, Onstein RE, Seehausen O, Singh P, Svensson EI, Salazar-Valenzuela D, Vanhove MPM, Wogan GOU, Yamaguchi R, Yoder AD, and Cerca J

Abstract

Understanding the processes that drive phenotypic diversification and underpin speciation is key to elucidating how biodiversity has evolved. Although these processes have been studied across a wide array of clades, adaptive radiations (ARs), which are systems with multiple closely related species and broad phenotypic diversity, have been particularly fruitful for teasing apart the factors that drive and constrain diversification. As such, ARs have become popular candidate study systems for determining the extent to which ecological features, including aspects of organisms and the environment, and inter- and intraspecific interactions, led to evolutionary diversification. Despite substantial past empirical and theoretical work, understanding mechanistically how ARs evolve remains a major challenge. Here, we highlight a number of understudied components of the environment and of lineages themselves, which may help further our understanding of speciation and AR. We also outline some substantial remaining challenges to achieving a detailed understanding of adaptation, speciation, and the role of ecology in these processes. These major challenges include identifying factors that have a causative impact in promoting or constraining ARs, gaining a more holistic understanding of features of organisms and their environment that interact resulting in adaptation and speciation, and understanding whether the role of these organismal and environmental features varies throughout the radiation process. We conclude by providing perspectives on how future investigations into the AR process can overcome these challenges, allowing us to glean mechanistic insights into adaptation and speciation., (Copyright © 2024 Cold Spring Harbor Laboratory Press; all rights reserved.)

Published

2024

11. Aridity, availability of drinking water and freshwater foods, and hominin and archeological sites during the Late Pliocene-Early Pleistocene in the western region of the Turkana Basin (Kenya): A review.

Author

Boës X, Van Bocxlaer B, Prat S, Feibel C, Lewis J, Arrighi V, Taylor N, and Harmand S

Subjects

Animals, Kenya, Fossils, Fresh Water, Biological Evolution, Hominidae, Drinking Water

Abstract

Although the Turkana Basin is one of the driest regions of the East African Rift, its Plio-Pleistocene sediments are rich in freshwater vertebrates and invertebrates, providing evidence that freshwater resources were available to hominins in this region during the Plio-Pleistocene (4.2-0.7 Ma). Here we provide an overview of the hydroconnectivity of the Turkana Basin. We then review the period during which freshwater river and lake systems expanded into the western region of the Turkana Basin, where hominin and archeological sites have been discovered in sediments dating back to the Late Pliocene-Pleistocene. Freshwater conditions are reconstructed from river and lake sediments and the flora and micro- and macofauna they contain. Data synthesis suggests that drinking water and freshwater foods prevailed in the western region of the Turkana Basin at 4.20-3.98 Ma, 3.70-3.10 Ma, 2.53-2.22 Ma, then between 2.10 and 1.30 Ma and intermittently from 1.27 to 0.75 Ma. Milestones in hominin evolution occurred in this context, such as the first occurrence of Australopithecus anamensis (4.20-4.10 Ma) and Kenyanthropus platyops (3.50 Ma and 3.30-3.20 Ma), the presence of Paranthropus aethiopicus (2.53-2.45 Ma), early Homo (2.33 Ma), Paranthropus boisei (2.25 Ma and 1.77-1.72 Ma) and Homo ergaster/Homo erectus (1.75 Ma, 1.47-1.42 Ma and 1.10-0.90 Ma). Developments in hominin behavior also occurred during this timeframe, including the first known stone tools (3.30 Ma), the oldest Oldowan sites (2.34 Ma and 2.25 Ma) in the Turkana Basin, the earliest known evidence for the emergence of bifacial shaping in eastern Africa (1.80 Ma), and the first known Acheulean site (1.76 Ma). Our synthesis suggests that, diachronic variation in hydroconnectivity played a role on the amount of drinking water and freshwater foods available in the western region of the Turkana Basin, despite regional aridity., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2024

12. Target enrichment of long open reading frames and ultraconserved elements to link microevolution and macroevolution in non-model organisms.

Author

Ortiz-Sepulveda CM, Genete M, Blassiau C, Godé C, Albrecht C, Vekemans X, and Van Bocxlaer B

Subjects

Phylogeny, Open Reading Frames, Exons, Genomics, Genome

Abstract

Despite the increasing accessibility of high-throughput sequencing, obtaining high-quality genomic data on non-model organisms without proximate well-assembled and annotated genomes remains challenging. Here, we describe a workflow that takes advantage of distant genomic resources and ingroup transcriptomes to select and jointly enrich long open reading frames (ORFs) and ultraconserved elements (UCEs) from genomic samples for integrative studies of microevolutionary and macroevolutionary dynamics. This workflow is applied to samples of the African unionid bivalve tribe Coelaturini (Parreysiinae) at basin and continent-wide scales. Our results indicate that ORFs are efficiently captured without prior identification of intron-exon boundaries. The enrichment of UCEs was less successful, but nevertheless produced substantial data sets. Exploratory continent-wide phylogenetic analyses with ORF supercontigs (>515,000 parsimony informative sites) resulted in a fully resolved phylogeny, the backbone of which was also retrieved with UCEs (>11,000 informative sites). Variant calling on ORFs and UCEs of Coelaturini from the Malawi Basin produced ~2000 SNPs per population pair. Estimates of nucleotide diversity and population differentiation were similar for ORFs and UCEs. They were low compared to previous estimates in molluscs, but comparable to those in recently diversifying Malawi cichlids and other taxa at an early stage of speciation. Skimming off-target sequence data from the same enriched libraries of Coelaturini from the Malawi Basin, we reconstructed the maternally-inherited mitogenome, which displays the gene order inferred for the most recent common ancestor of Unionidae. Overall, our workflow and results provide exciting perspectives for integrative genomic studies of microevolutionary and macroevolutionary dynamics in non-model organisms., (© 2022 The Authors. Molecular Ecology Resources published by John Wiley & Sons Ltd.)

Published

2023

13. Trematode infection affects shell shape and size in Bulinus tropicus .

Author

Hammoud C, Kayenbergh A, Tumusiime J, Verschuren D, Albrecht C, Huyse T, and Van Bocxlaer B

Abstract

Trematodes can increase intraspecific variation in the phenotype of their intermediate snail host. However, the extent of such phenotypic changes remains unclear. We investigated the influence of trematode infection on the shell morphology of Bulinus tropicus , a common host of medically important trematodes. We focused on a snail population from crater lake Kasenda (Uganda). We sampled a single homogeneous littoral habitat to minimize the influence of environmental variation on shell phenotype, and barcoded snails to document snail genotypic variation. Among the 257 adult snails analysed, 99 tested positive for trematode infection using rapid-diagnostic PCRs. Subsequently we used high-throughput amplicon sequencing to identify the trematode (co-)infections. For 86 out of the 99 positive samples trematode species delineation could discriminate among combinations of (co-)infection by 11 trematode species. To avoid confounding effects, we focused on four prevalent trematode species. We performed landmark-based geometric morphometrics to characterize shell phenotype and used regressions to examine whether shell size and shape were affected by trematode infection and the developmental stage of infection (as inferred from read counts). Snails infected by Petasiger sp. 5, Echinoparyphium sp. or Austrodiplostomum sp. 2 had larger shells than uninfected snails or than those infected by Plagiorchiida sp. Moreover, the shell shape of snails infected solely by Petasiger sp. 5 differed significantly from that of uninfected snails and snails infected with other trematodes, except from Austrodiplostomum sp. 2. Shape changes included a more protuberant apex, an inward-folded outer apertural lip and a more adapically positioned umbilicus. Size differences were more pronounced in snails with 'late' infections (>25 days) compared to earlier-stage infections. No phenotypic differences were found between snails infected by a single trematode species and those harbouring co-infections. Further work is required to assess the complex causal links between trematode infections and shell morphological alterations of snail hosts., Competing Interests: The authors of this manuscript declare that they have no competing interests., (© 2022 The Authors.)

Published

2022

14. Simultaneous genotyping of snails and infecting trematode parasites using high-throughput amplicon sequencing.

Author

Hammoud C, Mulero S, Van Bocxlaer B, Boissier J, Verschuren D, Albrecht C, and Huyse T

Subjects

Animals, Genotype, Host-Parasite Interactions, Reproducibility of Results, Parasites, Trematoda genetics

Abstract

Several methodological issues currently hamper the study of entire trematode communities within populations of their intermediate snail hosts. Here we develop a new workflow using high-throughput amplicon sequencing to simultaneously genotype snail hosts and their infecting trematode parasites. We designed primers to amplify four snail and five trematode markers in a single multiplex PCR. While also applicable to other genera, we focused on medically and economically important snail genera within the superorder Hygrophila and targeted a broad taxonomic range of parasites within the class Trematoda. We tested the workflow using 417 Biomphalaria glabrata specimens experimentally infected with Schistosoma rodhaini, two strains of Schistosoma mansoni and combinations thereof. We evaluated the reliability of infection diagnostics, the robustness of the workflow, its specificity related to host and parasite identification, and the sensitivity to detect co-infections, immature infections and changes of parasite biomass during the infection process. Finally, we investigated its applicability in wild-caught snails of other genera naturally infected with a diverse range of trematodes. After stringent quality control the workflow allows the identification of snails to species level, and of trematodes to taxonomic levels ranging from family to strain. It is sensitive to detect immature infections and changes in parasite biomass described in previous experimental studies. Co-infections were successfully identified, opening the possibility to examine parasite-parasite interactions such as interspecific competition. Together, these results demonstrate that our workflow provides a powerful tool to analyse the processes shaping trematode communities within natural snail populations., (© 2021 John Wiley & Sons Ltd.)

Published

2022

15. Population collapse in viviparid gastropods of the Lake Victoria ecoregion started before the Last Glacial Maximum.

Author

Van Bocxlaer B, Clewing C, Duputié A, Roux C, and Albrecht C

Subjects

Animals, Bayes Theorem, Ecosystem, Gene Flow, Genetic Variation, Lakes, Cichlids genetics, Gastropoda

Abstract

Ecosystems of Lake Victoria and riparian communities have been strongly disrupted by the introduction of the invasive Nile perch and its fishing industry. Beyond this invasion and other recent anthropogenic stressors, the Lake Victoria ecoregion also underwent phases of pronounced aridity over the Late Pleistocene, lastly during the Last Glacial Maximum (LGM). The consequences of recent and historic environmental change have been canvassed for the adaptive radiation of haplochromine cichlids occupying the ecoregion, but their effect on freshwater invertebrate diversity remains largely unknown. Here, we use 15 microsatellite loci and approximate Bayesian computation to test whether viviparid gastropods experienced a population bottleneck during the LGM, as did cichlids. Clustering analyses support three viviparid gene pools in the Lake Victoria ecoregion, gathering specimens from 1) Lake Albert and the White Nile, 2) the Victoria Nile and Lake Kyoga and 3) Lake Victoria and tributaries. The last group contains the highest genetic diversity, but all groups have a considerable number of private alleles and are inferred to predate the LGM. Examinations of demographic history reveal a 190- to 500-fold population decline that started ~ 125-150 ka ago, thus substantially before the LGM bottleneck documented in haplochromine cichlids. Population collapses in viviparids are an order of magnitude more severe than declines in cichlids and have not been halted by the re-establishment of freshwater ecosystems since the LGM. Recent anthropogenic ecosystem deterioration is causing homogenization of previously diversified microhabitats, which may contribute to (local) extinction and enhanced gene flow among species within gene pools., (© 2020 John Wiley & Sons Ltd.)

Published

2021

16. Deep drilling reveals massive shifts in evolutionary dynamics after formation of ancient ecosystem.

Author

Wilke T, Hauffe T, Jovanovska E, Cvetkoska A, Donders T, Ekschmitt K, Francke A, Lacey JH, Levkov Z, Marshall CR, Neubauer TA, Silvestro D, Stelbrink B, Vogel H, Albrecht C, Holtvoeth J, Krastel S, Leicher N, Leng MJ, Lindhorst K, Masi A, Ognjanova-Rumenova N, Panagiotopoulos K, Reed JM, Sadori L, Tofilovska S, Van Bocxlaer B, Wagner-Cremer F, Wesselingh FP, Wolters V, Zanchetta G, Zhang X, and Wagner B

Subjects

Biodiversity, Climate Change, Fossils, Lakes, Biological Evolution, Ecosystem

Abstract

The scarcity of high-resolution empirical data directly tracking diversity over time limits our understanding of speciation and extinction dynamics and the drivers of rate changes. Here, we analyze a continuous species-level fossil record of endemic diatoms from ancient Lake Ohrid, along with environmental and climate indicator time series since lake formation 1.36 million years (Ma) ago. We show that speciation and extinction rates nearly simultaneously decreased in the environmentally dynamic phase after ecosystem formation and stabilized after deep-water conditions established in Lake Ohrid. As the lake deepens, we also see a switch in the macroevolutionary trade-off, resulting in a transition from a volatile assemblage of short-lived endemic species to a stable community of long-lived species. Our results emphasize the importance of the interplay between environmental/climate change, ecosystem stability, and environmental limits to diversity for diversification processes. The study also provides a new understanding of evolutionary dynamics in long-lived ecosystems., (Copyright © 2020 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).)

Published

2020

17. Global Diversification Dynamics Since the Jurassic: Low Dispersal and Habitat-Dependent Evolution Explain Hotspots of Diversity and Shell Disparity in River Snails (Viviparidae).

Author

Stelbrink B, Richter R, Köhler F, Riedel F, Strong EE, Van Bocxlaer B, Albrecht C, Hauffe T, Page TJ, Aldridge DC, Bogan AE, Du LN, Manuel-Santos MR, Marwoto RM, Shirokaya AA, and Von Rintelen T

Subjects

Animal Shells anatomy & histology, Animals, Biological Evolution, Animal Distribution, Biodiversity, Ecosystem, Snails anatomy & histology, Snails classification

Abstract

The Viviparidae, commonly known as River Snails, is a dominant group of freshwater snails with a nearly worldwide distribution that reaches its highest taxonomic and morphological diversity in Southeast Asia. The rich fossil record is indicative of a probable Middle Jurassic origin on the Laurasian supercontinent where the group started to diversify during the Cretaceous. However, it remains uncertain when and how the biodiversity hotspot in Southeast Asia was formed. Here, we used a comprehensive genetic data set containing both mitochondrial and nuclear markers and comprising species representing 24 out of 28 genera from throughout the range of the family. To reconstruct the spatiotemporal evolution of viviparids on a global scale, we reconstructed a fossil-calibrated phylogeny. We further assessed the roles of cladogenetic and anagenetic events in range evolution. Finally, we reconstructed the evolution of shell features by estimating ancestral character states to assess whether the appearance of sculptured shell morphologies was driven by major habitat shifts. The molecular phylogeny supports the monophyly of the three subfamilies, the Bellamyinae, Lioplacinae, and Viviparinae, but challenges the currently accepted genus-level classification in several cases. The almost global distribution of River Snails has been influenced both by comparatively ancient vicariance and more recent founder events. In Southeast Asia, Miocene dispersal was a main factor in shaping the modern species distributions. A recurrent theme across different viviparid taxa is that many species living in lentic waters exhibit sculptured shells, whereas only one strongly sculptured species is known from lotic environments. We show that such shell sculpture is habitat-dependent and indeed evolved several times independently in lentic River Snails. Considerably high transition rates between shell types in lentic habitats probably caused the co-occurrence of morphologically distinct shell types in several lakes. In contrast, directional evolution toward smooth shells in lotic habitats, as identified in the present analyses, explains why sculptured shells are rarely found in these habitats. However, the specific factors that promoted changes in shell morphology require further work. [biogeographical analyses; fossil-calibrated phylogeny; fossil-constrained analyses; Southeast Asia; stochastic character mapping.]., (© The Author(s) 2020. Published by Oxford University Press, on behalf of the Society of Systematic Biologists. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2020

18. Diversification dynamics of freshwater bivalves (Unionidae: Parreysiinae: Coelaturini) indicate historic hydrographic connections throughout the East African Rift System.

Author

Ortiz-Sepulveda CM, Stelbrink B, Vekemans X, Albrecht C, Riedel F, Todd JA, and Van Bocxlaer B

Subjects

Africa, Eastern, Animals, Bayes Theorem, Calibration, Fossils, Lakes, Phylogeny, Phylogeography, Species Specificity, Biodiversity, Ecosystem, Fresh Water, Unionidae physiology

Abstract

Invertebrates are exceptionally diverse, but many are in decline because of anthropogenic changes to their habitat. This situation is particularly problematic for taxa that are not well monitored or taxonomically poorly understood, because the lack of knowledge hampers conservation. Despite their important functional role in freshwater ecosystems, African bivalves of the family Unionidae remain poorly studied compared to their highly threatened relatives in Europe, the U.S.A. and Canada. To resolve relationships and to study diversification dynamics in space and time, we performed time-calibrated phylogenetic studies and biogeographical modeling on the unionids from the East African Rift System and surroundings, including representatives of all currently recognized Afrotropical genera except for Brazzaea (and Unio from southern Africa). Our analyses indicate that all sampled Afrotropical unionids belong to the tribe Coelaturini (subfamily Parreysiinae), as does the genus Moncetia from Lake Tanganyika, which is currently attributed to the family Iridinidae. Colonization of Africa from Eurasia by Parreysiinae occurred ~17 Ma ago, and the subsequent diversification of Coelaturini in Africa continued at a steady pace, although net diversification decreased over time as more niches and ecoregions became occupied. Clades in Coelaturini largely reflect drainage basins, with the oldest lineages and highest regional diversity occurring in Lake Tanganyika, followed by the Congo Basin watershed in general. The species assemblage of Lake Tanganyika reflects multiple independent events of colonization and intralacustrine diversification since the Late Miocene or Early Pliocene. The clades of other regions, including that containing the species from Lake Malawi, are comparatively young. Biogeographical analyses indicate that the colonization history was mainly driven by cladogenesis in sympatry, whereas few anagenetic events contributed to the modern distribution of Coelaturini. Ancestral range estimations demonstrate that Coelaturini originated in the Victoria and/or Tanganyika ecoregions, and that the Congo Basin played an essential role in the colonization of Africa by Coelaturini., Competing Interests: Declaration of Competing Interest The authors have no competing interests to declare., (Copyright © 2020 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2020

19. Paleoecological insights from fossil freshwater mollusks of the Kanapoi Formation (Omo-Turkana Basin, Kenya).

Author

Van Bocxlaer B

Subjects

Animals, Bivalvia physiology, Fresh Water, Kenya, Paleontology, Snails physiology, Bivalvia classification, Ecosystem, Fossils, Snails classification

Abstract

The Early Pliocene Kanapoi Formation of the Omo-Turkana Basin consists of two fluvial/deltaic sedimentary sequences with an intermediate lacustrine sequence that was deposited in Paleolake Lonyumun, the earliest large lake in the basin. Overall, the geology and vertebrate paleontology of the Kanapoi Formation are well studied, but its freshwater mollusks, despite being a major component of the benthic ecosystem, have not been subjected to in-depth study. Here I present the first treatment of these mollusks, which have been retrieved mainly from the lacustrine but also from the upper fluvial sediments, with a focus on paleoecological implications. Overall, the freshwater mollusk fauna is reasonably diverse and contains the gastropods Bellamya (Viviparidae), Melanoides (Thiaridae), Cleopatra (Paludomidae) and Gabbiella (Bithyniidae), as well as the unionoid bivalves Coelatura, Pseudobovaria (Unionidae), Aspatharia, Iridina (Iridinidae) and Etheria (Etheriidae). Material is typically recrystallized and lithified and its taphonomy suggests deposition in a system with intermediate energy, such as a beach, with post-depositional deformation and abrasion. The mollusk assemblage is indicative of perennial, fresh and well-oxygenated waters in the Kanapoi region. It suggests that Paleolake Lonyumun had largely open shores with limited vegetation and that swampy or ephemeral backwaters were rare. Overall, these findings support earlier paleoecological interpretations based on the fish assemblage of Paleolake Lonyumun at Kanapoi. Moreover, mollusk assemblages from this lake are very similar across the Omo-Turkana Basin (Nachukui, Usno, Mursi and Koobi Fora Formations) suggesting that the lacustrine paleoecological conditions found in the Kanapoi Formation existed throughout the basin., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2020

20. Adaptive divergence in shell morphology in an ongoing gastropod radiation from Lake Malawi.

Author

Van Bocxlaer B, Ortiz-Sepulveda CM, Gurdebeke PR, and Vekemans X

Subjects

Animals, Biological Evolution, Ecosystem, Genetic Speciation, Lakes, Malawi, Models, Biological, Phylogeny, Snails classification, Animal Shells anatomy & histology, Fossils, Snails anatomy & histology, Snails genetics

Abstract

Background: Ecological speciation is a prominent mechanism of diversification but in many evolutionary radiations, particularly in invertebrates, it remains unclear whether supposedly critical ecological traits drove or facilitated diversification. As a result, we lack accurate knowledge on the drivers of diversification for most evolutionary radiations along the tree of life. Freshwater mollusks present an enigmatic example: Putatively adaptive radiations are being described in various families, typically from long-lived lakes, whereas other taxa represent celebrated model systems in the study of ecophenotypic plasticity. Here we examine determinants of shell-shape variation in three nominal species of an ongoing ampullariid radiation in the Malawi Basin (Lanistes nyassanus, L. solidus and Lanistes sp. (ovum-like)) with a common garden experiment and semi-landmark morphometrics., Results: We found significant differences in survival and fecundity among these species in contrasting habitats. Morphological differences observed in the wild persisted in our experiments for L. nyassanus versus L. solidus and L. sp. (ovum-like), but differences between L. solidus and L. sp. (ovum-like) disappeared and re-emerged in the F 1 and F 2 generations, respectively. These results indicate that plasticity occurred, but that it is not solely responsible for the observed differences. Our experiments provide the first unambiguous evidence for genetic divergence in shell morphology in an ongoing freshwater gastropod radiation in association with marked fitness differences among species under controlled habitat conditions., Conclusions: Our results indicate that differences in shell morphology among Lanistes species occupying different habitats have an adaptive value. These results also facilitate an accurate reinterpretation of morphological variation in fossil Lanistes radiations, and thus macroevolutionary dynamics. Finally, our work testifies that the shells of freshwater gastropods may retain signatures of adaptation at low taxonomic levels, beyond representing an evolutionary novelty responsible for much of the diversity and disparity in mollusks altogether.

Published

2020

21. Signatures of Divergence, Invasiveness, and Terrestrialization Revealed by Four Apple Snail Genomes.

Author

Sun J, Mu H, Ip JCH, Li R, Xu T, Accorsi A, Sánchez Alvarado A, Ross E, Lan Y, Sun Y, Castro-Vazquez A, Vega IA, Heras H, Ituarte S, Van Bocxlaer B, Hayes KA, Cowie RH, Zhao Z, Zhang Y, Qian PY, and Qiu JW

Subjects

Animals, Genes, Homeobox, Karyotype, Multigene Family, Oviposition, Phylogeny, Adaptation, Biological, Genome, Introduced Species, Snails genetics

Abstract

The family Ampullariidae includes both aquatic and amphibious apple snails. They are an emerging model for evolutionary studies due to the high diversity, ancient history, and wide geographical distribution. Insight into drivers of ampullariid evolution is hampered, however, by the lack of genomic resources. Here, we report the genomes of four ampullariids spanning the Old World (Lanistes nyassanus) and New World (Pomacea canaliculata, P. maculata, and Marisa cornuarietis) clades. The ampullariid genomes have conserved ancient bilaterial karyotype features and a novel Hox gene cluster rearrangement, making them valuable in comparative genomic studies. They have expanded gene families related to environmental sensing and cellulose digestion, which may have facilitated some ampullarids to become notorious invasive pests. In the amphibious Pomacea, novel acquisition of an egg neurotoxin and a protein for making the calcareous eggshell may have been key adaptations enabling their transition from underwater to terrestrial egg deposition., (© The Author(s) 2019. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published

2019

22. AmpuBase: a transcriptome database for eight species of apple snails (Gastropoda: Ampullariidae).

Author

Ip JCH, Mu H, Chen Q, Sun J, Ituarte S, Heras H, Van Bocxlaer B, Ganmanee M, Huang X, and Qiu JW

Subjects

Animals, Gene Expression Profiling, Gene Ontology, Genomics methods, High-Throughput Nucleotide Sequencing methods, Molecular Sequence Annotation, Databases, Genetic, Snails classification, Snails genetics, Transcriptome

Abstract

Background: Gastropoda, with approximately 80,000 living species, is the largest class of Mollusca. Among gastropods, apple snails (family Ampullariidae) are globally distributed in tropical and subtropical freshwater ecosystems and many species are ecologically and economically important. Ampullariids exhibit various morphological and physiological adaptations to their respective habitats, which make them ideal candidates for studying adaptation, population divergence, speciation, and larger-scale patterns of diversity, including the biogeography of native and invasive populations. The limited availability of genomic data, however, hinders in-depth ecological and evolutionary studies of these non-model organisms., Results: Using Illumina Hiseq platforms, we sequenced 1220 million reads for seven species of apple snails. Together with the previously published RNA-Seq data of two apple snails, we conducted de novo transcriptome assembly of eight species that belong to five genera of Ampullariidae, two of which represent Old World lineages and the other three New World lineages. There were 20,730 to 35,828 unigenes with predicted open reading frames for the eight species, with N50 (shortest sequence length at 50% of the unigenes) ranging from 1320 to 1803 bp. 69.7% to 80.2% of these unigenes were functionally annotated by searching against NCBI's non-redundant, Gene Ontology database and the Kyoto Encyclopaedia of Genes and Genomes. With these data we developed AmpuBase, a relational database that features online BLAST functionality for DNA/protein sequences, keyword searching for unigenes/functional terms, and download functions for sequences and whole transcriptomes., Conclusions: In summary, we have generated comprehensive transcriptome data for multiple ampullariid genera and species, and created a publicly accessible database with a user-friendly interface to facilitate future basic and applied studies on ampullariids, and comparative molecular studies with other invertebrates.

Published

2018

23. Hierarchical structure of ecological and non-ecological processes of differentiation shaped ongoing gastropod radiation in the Malawi Basin.

Author

Van Bocxlaer B

Subjects

Adaptation, Biological, Animals, Ecology, Malawi, Mutation, Phenotype, Gastropoda classification, Genetic Speciation

Abstract

Ecological processes, non-ecological processes or a combination of both may cause reproductive isolation and speciation, but their specific roles and potentially complex interactions in evolutionary radiations remain poorly understood, which defines a central knowledge gap at the interface of microevolution and macroevolution. Here I examine genome scans in combination with phenotypic and environmental data to disentangle how ecological and non-ecological processes contributed to population differentiation and speciation in an ongoing radiation of Lanistes gastropods from the Malawi Basin. I found a remarkable hierarchical structure of differentiation mechanisms in space and time: neutral and mutation-order processes are older and occur mainly between regions, whereas more recent adaptive processes are the main driver of genetic differentiation and reproductive isolation within regions. The strongest differentiation occurs between habitats and between regions, i.e. when ecological and non-ecological processes act synergistically. The structured occurrence of these processes based on the specific geographical setting and ecological opportunities strongly influenced the potential for evolutionary radiation. The results highlight the importance of interactions between various mechanisms of differentiation in evolutionary radiations, and suggest that non-ecological processes are important in adaptive radiations, including those of cichlids. Insight into such interactions is critical to understanding large-scale patterns of organismal diversity., (© 2017 The Author(s).)

Published

2017

24. Recurrent camouflaged invasions and dispersal of an Asian freshwater gastropod in tropical Africa.

Author

Van Bocxlaer B, Clewing C, Mongindo Etimosundja JP, Kankonda A, Wembo Ndeo O, and Albrecht C

Subjects

Africa, Animals, Biological Evolution, Ecosystem, Gastropoda classification, Gastropoda genetics, Phylogeography, Population Density, Gastropoda physiology, Lakes

Abstract

Background: Non-indigenous taxa currently represent a large fraction of the species and biomass of freshwater ecosystems. The accumulation of invasive taxa in combination with other stressors in these ecosystems may alter the habitats to which native taxa are adapted, which could elicit evolutionary changes in native populations and their ecological interactions. Assessing ecological and evolutionary consequences of invasions simultaneously may therefore be the most effective approach to study taxa with complex invasion histories. Here we apply such an integrated approach to the cerithioid gastropod Melanoides tuberculata, a model system in invasion biology., Results: Molecular phylogenetics and ancestral range reconstructions allowed us to identify several independent Asian invasions in Lakes Malawi and Tanganyika, the Congo River, Nigeria and Cameroon. Some invasive M. tuberculata populations display much variation in shell morphology, and overlap in morphospace with M. tuberculata populations native to Africa. Experiments confirmed great ecophenotyic plasticity in some invasive populations, which, in combination with the overlap in disparity with native populations, masks invaders and their dispersal through Africa. Finally, the results of geographic modeling indicate that cryptic M. tuberculata invasions occurred primarily in densely populated areas., Conclusions: We reveal the continental nature of invasions of Asian M. tuberculata to Africa. Several of the affected ecosystems have high endemicity in Cerithioidea: Lake Tanganyika has an unparalleled diversity in freshwater cerithioids (>10 endemic genera) and the Congo Basin and Lake Malawi are home to the two largest endemic species clusters of Melanoides in Africa (~12 and ~8 species, respectively). Cerithioids perform ecologically important functions in the benthic ecosystems of African freshwaters, but invaders and ecosystem change pose risks to their native diversity. We draw suggestions for more effective conservation strategies from our integrated approach.

Published

2015

25. Growing population and ecosystem change increase human schistosomiasis around Lake Malaŵi.

Author

Van Bocxlaer B, Albrecht C, and Stauffer JR Jr

Subjects

Africa South of the Sahara epidemiology, Animals, Climate Change, Host-Parasite Interactions, Humans, Prevalence, Ecosystem, Lakes parasitology, Population Growth, Schistosomiasis haematobia epidemiology

Abstract

Multiple anthropogenic environmental stressors with reinforcing effects to the deterioration of ecosystem stability can obscure links between ecosystem change and the prevalence of infectious diseases. Incomplete understanding may lead to ineffective public health and disease control strategies, as appears to be the case with increased urogenital schistosomiasis in humans around Lake Malaŵi over recent decades. Sedimentation and eutrophication help explain historical changes in intermediate host range and parasite transmission. Hence, control strategies should account for abiotic changes., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

26. Disjunct distributions of freshwater snails testify to a central role of the Congo system in shaping biogeographical patterns in Africa.

Author

Schultheiß R, Van Bocxlaer B, Riedel F, von Rintelen T, and Albrecht C

Subjects

Africa, Animals, Climate, Multilocus Sequence Typing, Phylogeography, Biological Evolution, Fresh Water, Snails classification, Snails genetics

Abstract

Background: The formation of the East African Rift System has decisively influenced the distribution and evolution of tropical Africa's biota by altering climate conditions, by creating basins for large long-lived lakes, and by affecting the catchment and drainage directions of river systems. However, it remains unclear how rifting affected the biogeographical patterns of freshwater biota through time on a continental scale, which is further complicated by the scarcity of molecular data from the largest African river system, the Congo., Results: We study these biogeographical patterns using a fossil-calibrated multi-locus phylogeny of the gastropod family Viviparidae. This group allows reconstructing drainage patterns exceptionally well because it disperses very poorly in the absence of existing freshwater connections. Our phylogeny covers localities from major drainage basins of tropical Africa and reveals highly disjunct sister-group relationships between (a) the endemic viviparids of Lake Malawi and populations from the Middle Congo as well as between (b) the Victoria region and the Okavango/Upper Zambezi area., Conclusions: The current study testifies to repeated disruptions of the distribution of the Viviparidae during the formation of the East African Rift System, and to a central role of the Congo River system for the distribution of the continent's freshwater fauna during the late Cenozoic. By integrating our results with previous findings on palaeohydrographical connections, we provide a spatially and temporarily explicit model of historical freshwater biogeography in tropical Africa. Finally, we review similarities and differences in patterns of vertebrate and invertebrate dispersal. Amongst others we argue that the closest relatives of present day viviparids in Lake Malawi are living in the Middle Congo River, thus shedding new light on the origin of the endemic fauna of this rift lake.

Published

2014

27. Morphological stasis in an ongoing gastropod radiation from Lake Malawi.

Author

Van Bocxlaer B and Hunt G

Subjects

Anatomy, Comparative methods, Animal Shells anatomy & histology, Animals, Body Weights and Measures, Gastropoda genetics, Gastropoda physiology, Lakes, Malawi, Paleontology methods, Principal Component Analysis, Species Specificity, Adaptation, Biological physiology, Biodiversity, Biological Evolution, Gastropoda anatomy & histology, Genetic Speciation, Models, Biological

Abstract

Evolutionary processes leading to adaptive radiation regularly occur too fast to be accurately recorded in the fossil record but too slowly to be readily observed in living biota. The study of evolutionary radiations is thereby confronted with an epistemological gap between the timescales and approaches used by neontologists and paleontologists. Here we report on an ongoing radiation of extant Bellamya species (n = 4) from the African Rift Lake Malawi that provides an unusual opportunity to bridge this gap. The substantial molecular differentiation in this monophyletic Bellamya clade has arisen since Late Pleistocene megadroughts in the Malawi Basin caused by climate change. Morphological time-series analysis of a high-resolution, radiocarbon-dated sequence of 22 faunas spanning the Holocene documents stasis up to the middle Holocene in all traits studied (shell height, number of whorls, and two variables obtained from geometric morphometrics). Between deposition of the last fossil fauna (~5 ka) and the present day, a drastic increase in morphological disparity was observed (3.7-5.8 times) associated with an increase in species diversity. Comparison of the rates of morphological evolution obtained from the paleontological time-series with phylogenetic rates indicates that the divergence in two traits could be reconstructed with the slow rates documented in the fossils, that one trait required a rate reduction (stabilizing selection), and the other faster rates (divergent selection). The combined paleontological and comparative approach taken here allows recognition that morphological stasis can be the dominant evolutionary pattern within species lineages, even in very young and radiating clades., Competing Interests: The authors declare no conflict of interest.

Published

2013

28. Old fossils-young species: evolutionary history of an endemic gastropod assemblage in Lake Malawi.

Author

Schultheiss R, Van Bocxlaer B, Wilke T, and Albrecht C

Subjects

Animals, Fresh Water, Malawi, Biological Evolution, Fossils, Gastropoda genetics

Abstract

Studies on environmental changes provide important insights into modes of speciation, into the (adaptive) reoccupation of ecological niches and into species turnover. Against this background, we here examine the history of the gastropod genus Lanistes in the African Rift Lake Malawi, guided by four general evolutionary scenarios, and compare it with patterns reported from other endemic Malawian rift taxa. Based on an integrated approach using a mitochondrial DNA phylogeny and a trait-specific molecular clock in combination with insights from the fossil record and palaeoenvironmental data, we demonstrate that the accumulation of extant molecular diversity in the endemic group did not start before approximately 600,000 years ago from a single lineage. Fossils of the genus from the Malawi Rift, however, are over one million years older. We argue that severe drops in the lake level of Lake Malawi in the Pleistocene offer a potential explanation for this pattern. Our results also challenge previously established phylogenetic relationships within the genus by revealing parallel evolution and providing evidence that the endemic Lanistes species are not restricted to the lake proper but are present throughout the Malawi Rift.

Published

2009

29. Gradual versus punctuated equilibrium evolution in the Turkana Basin molluscs: evolutionary events or biological invasions?

Author

Van Bocxlaer B, Damme DV, and Feibel CS

Subjects

Animals, Kenya, Population Dynamics, Principal Component Analysis, Biological Evolution, Demography, Fossils, Gastropoda anatomy & histology

Abstract

A running controversy in evolutionary thought was Eldredge and Gould's punctuated equilibrium model, which proposes long periods of morphological stasis interspersed with rapid bursts of dramatic evolutionary change. One of the earliest and most iconic pieces of research in support of punctuated equilibrium is the work of Williamson on the Plio-Pleistocene molluscs of the Turkana Basin. Williamson claimed to have found firm evidence for three episodes of rapid evolutionary change separated by long periods of stasis in a high-resolution sequence. Most of the discussions following this report centered on the topics of (eco)phenotype versus genotype and the possible presence of preservational and temporal artifacts. The debate proved inconclusive, leaving Williamson's reports as one of the empirical foundations of the paradigm of punctuated equilibrium. Here we conclusively show Williamson's original interpretations to be highly flawed. The supposed rapid bursts of punctuated evolutionary change represent artifacts resulting from the invasion of extrabasinal faunal elements in the Turkana palaeolakes during wet phases well known from elsewhere in Africa.

Published

2008