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6. An integrative environmental pollen diversity assessment and its importance for the sustainable development goals

Author

Hornick, Thomas, Richter, Anett, Harpole, William Stanley, Bastl, M., Bohlmann, S., Bonn, Aletta, Bumberger, Jan, Dietrich, Peter, Gemeinholzer, B., Grote, R., Heinold, B., Keller, A., Luttkus, L.M., Mäder, P., Motivans Švara, Elena, Passonneau, Sarah, Punyasena, S.W., Rakosy, Demetra, Richter, R., Sickel, W., Steffan-Dewenter, I., Theodorou, P., Treudler, R., Werchan, B., Werchan, M., Wolke, R., Dunker, Susanne, Hornick, Thomas, Richter, Anett, Harpole, William Stanley, Bastl, M., Bohlmann, S., Bonn, Aletta, Bumberger, Jan, Dietrich, Peter, Gemeinholzer, B., Grote, R., Heinold, B., Keller, A., Luttkus, L.M., Mäder, P., Motivans Švara, Elena, Passonneau, Sarah, Punyasena, S.W., Rakosy, Demetra, Richter, R., Sickel, W., Steffan-Dewenter, I., Theodorou, P., Treudler, R., Werchan, B., Werchan, M., Wolke, R., and Dunker, Susanne

Abstract

Pollen is at once intimately part of the reproductive cycle of seed plants and simultaneously highly relevant for the environment (pollinators, vector for nutrients, or organisms), people (food safety and health), and climate (cloud condensation nuclei and climate reconstruction). We provide an interdisciplinary perspective on the many and connected roles of pollen to foster a better integration of the currently disparate fields of pollen research, which would benefit from the sharing of general knowledge, technical advancements, or data processing solutions. We propose a more interdisciplinary and holistic research approach that encompasses total environmental pollen diversity (ePD) (wind and animal and occasionally water distributed pollen) at multiple levels of diversity (genotypic, phenotypic, physiological, chemical, and functional) across space and time. This interdisciplinary approach holds the potential to contribute to pressing human issues, including addressing United Nations Sustainable Development Goals, fostering social and political awareness of these tiny yet important and fascinating particles.

Published
2021

8. NFDI4BioDiversity - A Consortium for the National Research Data Infrastructure (NFDI). Zenodo. Version 1

Author

Glöckner, F.O., Diepenbroek, M., Felden, J., Güntsch, A., Stoye, J., Overmann, J., Wimmers, K., Kostadinov, I., Yahyapour, R., Müller, W., Scholz, U., Triebel, D., Frenzel, Mark ; orcid:0000-0003-1068-2394, Gemeinholzer, B., Goesmann, A., König-Ries, B., Bonn, Aletta ; orcid:0000-0002-8345-4600, Seeger, B., Glöckner, F.O., Diepenbroek, M., Felden, J., Güntsch, A., Stoye, J., Overmann, J., Wimmers, K., Kostadinov, I., Yahyapour, R., Müller, W., Scholz, U., Triebel, D., Frenzel, Mark ; orcid:0000-0003-1068-2394, Gemeinholzer, B., Goesmann, A., König-Ries, B., Bonn, Aletta ; orcid:0000-0002-8345-4600, and Seeger, B.

Abstract

Biodiversity is more than just the diversity of living species. It includes genetic and phenotypic diversity of organisms, functional diversity, interactions and the diversity of populations and whole ecosystems. The recent Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services (IPBES) report confirmed that our planet experiences a rapid loss of biodiversity with dramatic consequences for mankind. Answers to scientifically and societal relevant questions can only be found based on the availability of data integrated from multiple sources and building on different knowledge domains in science and society. The FAIR data principles provide a framework towards such integration. To foster access to interoperable data, NFDI4BioDiversity focuses on the following six objectives: 1) Promoting research data management as an integral part of biodiversity research, 2) Enabling FAIRness of data, 3) Consolidating FAIRness with quality, 4) Embedding NFDI4BioDiversity into the (inter-)national landscape, 5) Addressing NFDI-wide cross-cutting topics and 6) Promoting collaborative governance, viability and sustainability of data infrastructure services and science. These objectives are implemented by the NFDI4BioDiversity work programme and its five task areas: Task Area 1 - Community engagement (2involve): This task area will integrate across different knowledge holders and take care of research data management requests related to biodiversity data. A large part of all species data is collected by volunteers in natural history societies, NGOs, museums and citizen science projects as well as collected by different authorities This task area includes 23 use cases with community-driven topics and cross-domain user groups. Task Area 2 - National and international networking (2connect): This task area ensures that any cross-domain activities and developments of NFDI4BioDiversity are coordinated and in-line with the overall development of the NFDI as well as inte

Published
2020

9. NFDI4BioDiversity - A Consortium for the National Research Data Infrastructure (NFDI)

Author

Glöckner, F.O., Diepenbroek, M., Felden, J., Güntsch, A., Stoye, J., Overmann, J., Wimmers, K., Kostadinov, I., Yahyapour, R., Müller, W., Scholz, U., Triebel, D., Frenzel, Mark, Gemeinholzer, B., Goesmann, A., König-Ries, B., Bonn, Aletta, Seeger, B., Glöckner, F.O., Diepenbroek, M., Felden, J., Güntsch, A., Stoye, J., Overmann, J., Wimmers, K., Kostadinov, I., Yahyapour, R., Müller, W., Scholz, U., Triebel, D., Frenzel, Mark, Gemeinholzer, B., Goesmann, A., König-Ries, B., Bonn, Aletta, and Seeger, B.

Abstract

Biodiversity is more than just the diversity of living species. It includes genetic and phenotypic diversity of organisms, functional diversity, interactions and the diversity of populations and whole ecosystems. The recent Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services (IPBES) report confirmed that our planet experiences a rapid loss of biodiversity with dramatic consequences for mankind. Answers to scientifically and societal relevant questions can only be found based on the availability of data integrated from multiple sources and building on different knowledge domains in science and society. The FAIR data principles provide a framework towards such integration. To foster access to interoperable data, NFDI4BioDiversity focuses on the following six objectives: 1) Promoting research data management as an integral part of biodiversity research, 2) Enabling FAIRness of data, 3) Consolidating FAIRness with quality, 4) Embedding NFDI4BioDiversity into the (inter-)national landscape, 5) Addressing NFDI-wide cross-cutting topics and 6) Promoting collaborative governance, viability and sustainability of data infrastructure services and science. These objectives are implemented by the NFDI4BioDiversity work programme and its five task areas: Task Area 1 - Community engagement (2involve): This task area will integrate across different knowledge holders and take care of research data management requests related to biodiversity data. A large part of all species data is collected by volunteers in natural history societies, NGOs, museums and citizen science projects as well as collected by different authorities This task area includes 23 use cases with community-driven topics and cross-domain user groups. Task Area 2 - National and international networking (2connect): This task area ensures that any cross-domain activities and developments of NFDI4BioDiversity are coordinated and in-line with the overall development of the NFDI as well as inte

Published
2020

12. Berlin Declaration on NFDI Cross-Cutting Topics. Zenodo. Version 1.0

Author

Glöckner, F.O., Diepenbroek, M., Felden, J., Overmann, J., Bonn, Aletta ; orcid:0000-0002-8345-4600, Gemeinholzer, B., Güntsch, A., König-Ries, B., Seeger, B., Pollex-Krüger, A., Fluck, J., Pigeot, I., Kirsten, T., Mühlhaus, T., Wolf, C., Heinrich, U., Steinbeck, C., Koepler, O., Stegle, O., Weimann, J., Schörner-Sadenius, T., Gutt, C., Stahl, F., Wagemann, K., Schrade, T., Schmitt, R., Eberl, C., Gauterin, F., Schultz, M., Bernard, L., Glöckner, F.O., Diepenbroek, M., Felden, J., Overmann, J., Bonn, Aletta ; orcid:0000-0002-8345-4600, Gemeinholzer, B., Güntsch, A., König-Ries, B., Seeger, B., Pollex-Krüger, A., Fluck, J., Pigeot, I., Kirsten, T., Mühlhaus, T., Wolf, C., Heinrich, U., Steinbeck, C., Koepler, O., Stegle, O., Weimann, J., Schörner-Sadenius, T., Gutt, C., Stahl, F., Wagemann, K., Schrade, T., Schmitt, R., Eberl, C., Gauterin, F., Schultz, M., and Bernard, L.

Abstract

In the spirit of our common interest to build what could become an international beacon for sharing the benefits of high-quality research data and research data management, the signing NFDI consortia strongly support the idea that NFDI must build on a coordinated and inclusive effort fostering the FAIR data principles. Recalling the challenges that interoperability and sharing of data faces, the 21 consortia signing this declaration agreed on a common list of cross-cutting topics.

Published
2019

13. Berlin Declaration on NFDI Cross-Cutting Topics (Version 1)

Author

Glöckner, F.O., Diepenbroek, M., Felden, J., Overmann, J., Bonn, Aletta, Gemeinholzer, B., Güntsch, A., König-Ries, B., Seeger, B., Pollex-Krüger, A., Fluck, J., Pigeot, I., Kirsten, T., Mühlhaus, T., Wolf, C., Heinrich, U., Steinbeck, C., Koepler, O., Stegle, O., Weimann, J., Schörner-Sadenius, T., Gutt, C., Stahl, F., Wagemann, K., Schrade, T., Schmitt, R., Eberl, C., Gauterin, F., Schultz, M., Bernard, L., Glöckner, F.O., Diepenbroek, M., Felden, J., Overmann, J., Bonn, Aletta, Gemeinholzer, B., Güntsch, A., König-Ries, B., Seeger, B., Pollex-Krüger, A., Fluck, J., Pigeot, I., Kirsten, T., Mühlhaus, T., Wolf, C., Heinrich, U., Steinbeck, C., Koepler, O., Stegle, O., Weimann, J., Schörner-Sadenius, T., Gutt, C., Stahl, F., Wagemann, K., Schrade, T., Schmitt, R., Eberl, C., Gauterin, F., Schultz, M., and Bernard, L.

Abstract

In the spirit of our common interest to build what could become an international beacon for sharing the benefits of high-quality research data and research data management, the signing NFDI consortia strongly support the idea that NFDI must build on a coordinated and inclusive effort fostering the FAIR data principles. Recalling the challenges that interoperability and sharing of data faces, the 21 consortia signing this declaration agreed on a common list of cross-cutting topics.

Published
2019

14. The Global Genome Biodiversity Network (GGBN) Data Standard specification

Author

Dröge, G., Barker, K., Seberg, O., Coddington, J., Butler, C., Benson, E., Berendsohn, W. G., Bunk, B., Cawsey, E. M., Deck, J., Döring, M., Flemons, P., Gemeinholzer, B., Güntsch, A., Hollowell, T., Kelbert, P., Kostadinov, I., Kottmann, R., Lawlor, R. T., Lyal, C., Mackenzie-Dodds, J., Meyer, C., Mulcahy, D., Nussbeck, S. Y., O’Tuama, E., Orrell, T., Petersen, G., Robertson, T., Söhngen, C., Whitacre, J., Wieczorek, J., Yilmaz, P., Zetzsche, H., Zhang, Y., and Zhou, X.

Abstract

Genomic samples of non-model organisms are becoming increasingly important in a broad range of studies from developmental biology, biodiversity analyses, to conservation. Genomic sample definition, description, quality, voucher information and metadata all need to be digitized and disseminated across scientific communities. This information needs to be concise and consistent in today’s ever-increasing bioinformatic era, for complementary data aggregators to easily map databases to one another. In order to facilitate exchange of information on genomic samples and their derived data, the Global Genome Biodiversity Network (GGBN) Data Standard is intended to provide a platform based on a documented agreement to promote the efficient sharing and usage of genomic sample material and associated specimen information in a consistent way. The new data standard presented here build upon existing standards commonly used within the community extending them with the capability to exchange data on tissue, environmental and DNA sample as well as sequences. The GGBN Data Standard will reveal and democratize the hidden contents of biodiversity biobanks, for the convenience of everyone in the wider biobanking community. Technical tools exist for data providers to easily map their databases to the standard.

Published
2016

16. The Global Genome Biodiversity Network (GGBN) Data Standard specification

Author

Droege, G., primary, Barker, K., additional, Seberg, O., additional, Coddington, J., additional, Benson, E., additional, Berendsohn, W. G., additional, Bunk, B., additional, Butler, C., additional, Cawsey, E. M., additional, Deck, J., additional, Döring, M., additional, Flemons, P., additional, Gemeinholzer, B., additional, Güntsch, A., additional, Hollowell, T., additional, Kelbert, P., additional, Kostadinov, I., additional, Kottmann, R., additional, Lawlor, R. T., additional, Lyal, C., additional, Mackenzie-Dodds, J., additional, Meyer, C., additional, Mulcahy, D., additional, Nussbeck, S. Y., additional, O'Tuama, É., additional, Orrell, T., additional, Petersen, G., additional, Robertson, T., additional, Söhngen, C., additional, Whitacre, J., additional, Wieczorek, J., additional, Yilmaz, P., additional, Zetzsche, H., additional, Zhang, Y., additional, and Zhou, X., additional

Published
2016
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17. Genetic population structure, fitness variation and the importance of population history in remnant populations of the endangered plant Silene chlorantha (Willd.) Ehrh. (Caryophyllaceae)

Author

Lauterbach, Dirk, Ristow, Michael, and Gemeinholzer, B.

Subjects
Institut für Biochemie und Biologie
Abstract

Habitat fragmentation can lead to a decline of genetic diversity, a potential risk for the survival of natural populations. Fragmented populations can become highly differentiated due to reduced gene flow and genetic drift. A decline in number of individuals can result in lower reproductive fitness due to inbreeding effects. We investigated genetic variation within and between 11 populations of the rare and endangered plant Silene chlorantha in northeastern Germany to support conservation strategies. Genetic diversity was evaluated using AFLP techniques and the results were correlated to fitness traits. Fitness evaluation in nature and in a common garden approach was conducted. Our analysis revealed population differentiation was high and within population genetic diversity was intermediate. A clear population structure was supported by a Bayesian approach, AMOVA and neighbour-joining analysis. No correlation between genetic and geographic distance was found. Our results indicate that patterns of population differentiation were mainly caused by temporal and/or spatial isolation and genetic drift. The fitness evaluation revealed that pollinator limitation and habitat quality seem, at present, to be more important to reproductive fitness than genetic diversity by itself. Populations of S. chlorantha with low genetic diversity have the potential to increase in individual number if habitat conditions improve. This was detected in a single large population in the investigation area, which was formerly affected by bottleneck effects.

Published
2011

18. The Global Genome Biodiversity Network (GGBN) Data Portal

Author

Droege, G, Barker, K, Astrin, JJ, Bartels, P, Butler, C, Cantrill, D, Coddington, J, Forest, F, Gemeinholzer, B, Hobern, D, Mackenzie-Dodds, J, Tuama, EO, Petersen, G, Sanjur, O, Schindel, D, Seberg, O, Droege, G, Barker, K, Astrin, JJ, Bartels, P, Butler, C, Cantrill, D, Coddington, J, Forest, F, Gemeinholzer, B, Hobern, D, Mackenzie-Dodds, J, Tuama, EO, Petersen, G, Sanjur, O, Schindel, D, and Seberg, O

Abstract

The Global Genome Biodiversity Network (GGBN) was formed in 2011 with the principal aim of making high-quality well-documented and vouchered collections that store DNA or tissue samples of biodiversity, discoverable for research through a networked community of biodiversity repositories. This is achieved through the GGBN Data Portal (http://data.ggbn.org), which links globally distributed databases and bridges the gap between biodiversity repositories, sequence databases and research results. Advances in DNA extraction techniques combined with next-generation sequencing technologies provide new tools for genome sequencing. Many ambitious genome sequencing projects with the potential to revolutionize biodiversity research consider access to adequate samples to be a major bottleneck in their workflow. This is linked not only to accelerating biodiversity loss and demands to improve conservation efforts but also to a lack of standardized methods for providing access to genomic samples. Biodiversity biobank-holding institutions urgently need to set a standard of collaboration towards excellence in collections stewardship, information access and sharing and responsible and ethical use of such collections. GGBN meets these needs by enabling and supporting accessibility and the efficient coordinated expansion of biodiversity biobanks worldwide.

Published
2014

19. Biodiversitätsmonitoring in Deutschland: Herausforderungen für Politik, Forschung und Umsetzung. Biodiversity monitoring in Germany: Challenges for policy, science and implementation

Author

Marquard, Elisabeth, Dauber, J., Doerpinghaus, A., Dröschmeister, R., Frommer, J., Frommolt, K.-H., Gemeinholzer, B., Henle, Klaus, Hillebrand, H., Kleinschmit, B., Klotz, Stefan, Kraft, D., Premke-Kraus, M., Römbke, J., Vohland, K., Wägele, W., Marquard, Elisabeth, Dauber, J., Doerpinghaus, A., Dröschmeister, R., Frommer, J., Frommolt, K.-H., Gemeinholzer, B., Henle, Klaus, Hillebrand, H., Kleinschmit, B., Klotz, Stefan, Kraft, D., Premke-Kraus, M., Römbke, J., Vohland, K., and Wägele, W.

Abstract

Angesichts des rasanten Wandels unserer Umwelt und des drohenden Verlusts ökosystemarer Dienstleistungen sind aussagekräftige Daten zum Zustand und der Entwicklung der biologischen Vielfalt von großer Bedeutung. Um diese für Deutschland zu generieren, erscheint eine Anpassung und Koordination bestehender Monitoringprogramme dringend notwendig. Hierfür sollte eine engere Kooperation zwischen wissenschaftlichen Einrichtungen, Fachbehörden sowie relevanten Verbänden angestrebt werden. In diesem Sinne wird folgendes empfohlen: 1) Gründung einer transdisziplinären Arbeitsgruppe, die ein Konzept für ein bundesweit einheitliches und inhaltlich erweitertes Biodiversitätsmonitoring erarbeitet; 2) Stärkung des beruflichen Biodiversitätsschutzes sowie des Ehrenamts; 3) Standardisierung der Erhebungsmethoden und langfristige Sicherung und Verfügbarmachung von Biodiversitätsdaten, inklusive der Einbettung deutscher Aktivitäten in internationale Netzwerke; 4) Ausschöpfen des Potenzials automatisierter Erfassungsmethoden.

Published
2013

24. Shrinking genomes? Evidence from genome size variation in Crepis (Compositae).

Author

Enke, N., Fuchs, J., and Gemeinholzer, B.

Subjects
CREPIS, PLANT genomes, ANGIOSPERMS, PLANT genetics, POLYPLOIDY, MOLECULAR phylogeny, GENOMICS
Abstract

Large-scale surveys of genome size evolution in angiosperms show that the ancestral genome was most likely small, with a tendency towards an increase in DNA content during evolution. Due to polyploidisation and self-replicating DNA elements, angiosperm genomes were considered to have a 'one-way ticket to obesity' (Bennetzen & Kellogg 1997). New findings on how organisms can lose DNA challenged the hypotheses of unidirectional evolution of genome size. The present study is based on the classical work of Babcock (1947a) on karyotype evolution within Crepis and analyses karyotypic diversification within the genus in a phylogenetic context. Genome size of 21 Crepis species was estimated using flow cytometry. Additional data of 17 further species were taken from the literature. Within 30 diploid Crepis species there is a striking trend towards genome contraction. The direction of genome size evolution was analysed by reconstructing ancestral character states on a molecular phylogeny based on ITS sequence data. DNA content is correlated to distributional aspects as well as life form. Genome size is significantly higher in perennials than in annuals. Within sampled species, very small genomes are only present in Mediterranean or European species, whereas their Central and East Asian relatives have larger 1C values. [ABSTRACT FROM AUTHOR]

Published
2011
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25. Cryptic clades, fruit wall morphology and biology of Andira(Leguminosae: Papilionoideae)

Author

PENNINGTON, R. T. and GEMEINHOLZER, B.

Abstract

Andiracomprises 29 species distributed throughout tropical America, with two subspecies in Africa. Its fruits are unusual for a papilionoid legume because they are drupes. The majority of species have fruits dispersed by bats, but eight species have larger fruits dispersed by‐rodents. Some fruits of both dispersal types are secondarily dispersed by water. Cladistic analysis of chloroplast DNA (cpDNA) restriction site characters discovered four well‐supported clades of Andiraspecies. None of these ‘cryptic’ clades had been recognized by previous workers, because they are not apparently marked by any known morphological innovations. This prompted a search for new characters that might support these groupings. An anatomical study of fruit walls of 25 Andiraspecies revealed the presence of three principal endocarp types, dominated by (1) parenchyma, (2) fibres, or (3) stone cells. These features arc best coded as a single unordered multistate character. When incorporated into a simultaneous cladistic analysis of previously gathered molecular and morphological data, states of this endocarp character are shown to be apomorphies for two of the well‐supported clades evident in the cpDNA restriction site data. The most likely plesiomorphic state for the endocarp is parenchyma‐dominated. Thicker, stronger endocarps of fibres and stone cells may have evolved in response to the need to protect the seed from predators.

Published
2000
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26. The Global Genome Biodiversity Network (GGBN) Data Standard specification

Author

Droege, G., Barker, K., Seberg, O., Coddington, J., Benson, E., Berendsohn, W. G., Bunk, B., Butler, C., Cawsey, E. M., Deck, J., Döring, M., Flemons, P., Gemeinholzer, B., Güntsch, A., Hollowell, T., Kelbert, P., Kostadinov, I., Kottmann, R., Rita lawlor, Lyal, C., Mackenzie-Dodds, J., Meyer, C., Mulcahy, D., Nussbeck, S. Y., O Tuama, É, Orrell, T., Petersen, G., Robertson, T., Söhngen, C., Whitacre, J., Wieczorek, J., Yilmaz, P., Zetzsche, H., Zhang, Y., and Zhou, X.

Subjects
Genomic sample definition, biobanking community, Global Genome Biodiversity Network (GGBN), Genome, biobanking community, GGBN, Global Genome Biodiversity Network, Original Article, Global Genome Biodiversity Network (GGBN), Biodiversity, Databases, Nucleic Acid, Genomic sample definition
Abstract

Genomic samples of non-model organisms are becoming increasingly important in a broad range of studies from developmental biology, biodiversity analyses, to conservation. Genomic sample definition, description, quality, voucher information and metadata all need to be digitized and disseminated across scientific communities. This information needs to be concise and consistent in today's ever-increasing bioinformatic era, for complementary data aggregators to easily map databases to one another. In order to facilitate exchange of information on genomic samples and their derived data, the Global Genome Biodiversity Network (GGBN) Data Standard is intended to provide a platform based on a documented agreement to promote the efficient sharing and usage of genomic sample material and associated specimen information in a consistent way. The new data standard presented here build upon existing standards commonly used within the community extending them with the capability to exchange data on tissue, environmental and DNA sample as well as sequences. The GGBN Data Standard will reveal and democratize the hidden contents of biodiversity biobanks, for the convenience of everyone in the wider biobanking community. Technical tools exist for data providers to easily map their databases to the standard.Database URL: http://terms.tdwg.org/wiki/GGBN_Data_Standard.

28. Synchronised monitoring of plant and insect diversity: a case study using automated Malaise traps and DNA-based methods.

Author

Thomas LJ, Kirse A, Raus H, Langen K, Nümann B, Tschan GF, Gemeinholzer B, Wägele JW, and Bourlat SJ

Abstract

The occurrence and distribution of insects and their possible associations with plant species are largely unknown in Germany and baseline data to monitor future trends are urgently needed. Using newly-designed automated Malaise trap multi-samplers, the occurrence of insect species and their potential associations with plants was monitored synchronously at two contrasting field sites in Germany: an urban botanical garden and a forest research station. Taxa were identified by metabarcoding of the insects and the plant traces present in the preservative ethanol of the Malaise trap samples. For comparison, a botanical survey was conducted in the vicinity of the traps. Across both sites, we identified a total of 1290 exact sequence variants (ESVs) assigned to Insecta, of which 205 are known to be pollinators. In the botanical garden, we detected the occurrence of 128 plant taxa, of which 41 also had one of their known insect pollinator species detected. Insect species richness was highest in May, mainly attributed to an increase in Diptera. These results present a case study of the applicability of automated sampling and DNA-based methods to monitor the timings of flowering and corresponding activity of plant-visiting insects., Competing Interests: No conflict of interest to declare Disclaimer: This article is (co-)authored by any of the Editors-in-Chief, Managing Editors or their deputies in this journal., (Leighton J Thomas, Ameli Kirse, Hanna Raus, Kathrin Langen, Björn Nümann, Georg F. Tschan, Birgit Gemeinholzer, J. Wolfgang Wägele, Sarah J Bourlat.)

Published
2024
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29. More complex than you think: Taxonomic and temporal patterns of plant-pollinator networks of caraway (Carum carvi L.).

Author

Kilian IC, Swenson SJ, Mengual X, Gemeinholzer B, Hamm A, Wägele JW, and Peters RS

Subjects
Bees, Animals, Insecta genetics, Pollination, Plants, Flowers, Carum, Diptera genetics
Abstract

Caraway (Carum carvi L.) is a crop species that is gaining in importance in Europe, especially as a condiment and medicinal plant. Here, we present the plant-pollinator network of caraway in a central European agricultural landscape, focusing on two diverse potential pollinator taxa, Diptera: Brachycera (= true flies) and Hymenoptera (sawflies, bees, and wasps). We specifically studied qualitative differences in interactions between the two insect taxa as well as the intraday and intraseasonal variability of the network. Insect and pollen plant species determination was done via morphological identification and DNA (meta)barcoding. In total, 121 species representing 33 families of Hymenoptera and Brachycera were found to carry caraway pollen. These taxa included many nonhoneybee and nonhoverfly species, showing a wide taxonomic breadth of potential pollinators and a higher network complexity than previously anticipated. There are distinct qualitative differences between Brachycera and Hymenoptera networks, suggesting complementary roles of both taxa in the pollination of native and crop plants. Strong intraday differences in potential pollinator diversity make it necessary to collect insects and pollen at different times of the day to compile complete plant-pollinator networks. Intraseasonal analyses of the plant-pollinator network of caraway show the potential of caraway as an important food source for insect species with an activity peak in late summer., (© 2023 The Authors. Molecular Ecology published by John Wiley & Sons Ltd.)

Published
2023
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30. Continuous inbreeding affects genetic variation, phenology, and reproductive strategy in ex situ cultivated Digitalis lutea.

Author

Sandner TM, Gemeinholzer B, Lemmer J, Matthies D, and Ensslin A

Subjects
Pollination, Flowers genetics, Genetic Variation, Inbreeding, Digitalis
Abstract

Premise: Ex situ cultivation is important for plant conservation, but cultivation in small populations may result in genetic changes by drift, inbreeding, or unconscious selection. Repeated inbreeding potentially influences not only plant fitness, but also floral traits and interactions with pollinators, which has not yet been studied in an ex situ context., Methods: We studied the molecular genetic variation of Digitalis lutea from a botanic garden population cultivated for 30 years, a frozen seed bank conserving the original genetic structure, and two current wild populations including the source population. In a common garden, we studied the effects of experimental inbreeding and between-population crosses on performance, reproductive traits, and flower visitation of plants from the garden and a wild population., Results: Significant genetic differentiation was found between the garden population and the wild population from which the seeds had originally been gathered. After experimental selfing, inbreeding depression was only found for germination and leaf size of plants from the wild population, indicating a history of inbreeding in the smaller garden population. Moreover, garden plants flowered earlier and had floral traits related to selfing, whereas wild plants had traits related to attracting pollinators. Bumblebees visited more flowers of outbred than inbred plants and of wild than garden plants., Conclusions: Our case study suggests that high levels of inbreeding during ex situ cultivation can influence reproductive traits and thus interactions with pollinators. Together with the effects of genetic erosion and unconscious selection, these changes may affect the success of reintroductions into natural habitats., (© 2022 The Authors. American Journal of Botany published by Wiley Periodicals LLC on behalf of Botanical Society of America.)

Published
2022
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31. Development and Testing of the A1 Volumetric Air Sampler, an Automatic Pollen Trap Suitable for Long-Term Monitoring of eDNA Pollen Diversity.

Author

Khan G, Hegge A, and Gemeinholzer B

Subjects
Biodiversity, Humans, Pollen chemistry, Air Pollutants analysis, Environmental Monitoring methods
Abstract

Airborne pollen surveys provide information on various aspects of biodiversity and human health monitoring. Such surveys are typically conducted using the Burkard Multi-Vial Cyclone Sampler, but have to be technically optimized for eDNA barcoding. We here developed and tested a new airborne pollen trap, especially suitable for autonomous eDNA-metabarcoding analyses, called the A1 volumetric air sampler. The trap can sample pollen in 24 different tubes with flexible intervals, allowing it to operate independently in the field for a certain amount of time. We compared the efficiency of the new A1 volumetric air sampler with another automated volumetric spore trap, the Burkard Multi-Vial Cyclone Sampler, which features shorter and fewer sampling intervals to evaluate the comparability of ambient pollen concentrations. In a sterile laboratory environment, we compared trap performances between the automated volumetric air samplers by using pure dry pollen of three species- Fagus sylvatica , Helianthus annuus and Zea mays -which differ both by exine ornamentation and pollen size. The traps had a standard suction flow rate of 16.5 L/min, and we counted the inhaled pollen microscopically after a predefined time interval. Our results showed that though we put three different pollen types in the same container, both the traps inhaled all the pollens in a statistically significant manner irrespective of their size. We found that, on average, both traps inhaled equal an number of pollens for each species. We did not detect any cross-contamination between tubes. We concluded that the A1 volumetric air sampler has the potential to be used for longer and more flexible sampling intervals in the wild, suitable for autonomous monitoring of eDNA pollen diversity.

Published
2022
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32. Plant DNA barcoding necessitates marker-specific efforts to establish more comprehensive reference databases.

Author

Kolter A and Gemeinholzer B

Subjects
DNA, Ribosomal Spacer, Databases, Nucleic Acid, Genetic Markers, Plants genetics, DNA Barcoding, Taxonomic, DNA, Plant, Plants classification
Abstract

The problem of low species-level identification rates in plants by DNA barcoding is exacerbated by the fact that reference databases are far from being comprehensive. We investigate the impact of increased sampling depth on identification success by analyzing the efficacy of established plant barcode marker sequences ( rbcL , matK , trnL-trnF , psbA-trnH , ITS). Adding sequences of the same species to the reference database led to an increase in correct species assignment of +10.9% for rbcL and +19.0% for ITS. Simultaneously, erroneous identification dropped from ∼40% to ∼12.5%. Despite its evolutionary constraints, ITS showed the highest identification rate and identification gain by increased sampling effort, which makes it a very suitable marker in the planning phase of a barcode study. The limited sequence availability of trnL-trnF is problematic for an otherwise very promising plastid plant barcoding marker. Future developments in machine learning algorithms have the potential to give new impetus to plant barcoding, but are dependent on extensive reference databases. We expect that our results will be incorporated into future plans for the development of DNA barcoding reference databases and will lead to these being developed with greater depth and taxonomic coverage.

Published
2021
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33. Testing the effect of pollen exine rupture on metabarcoding with Illumina sequencing.

Author

Swenson SJ and Gemeinholzer B

Subjects
Base Sequence, DNA, Plant isolation & purification, Reproducibility of Results, Species Specificity, DNA Barcoding, Taxonomic methods, DNA, Plant genetics, High-Throughput Nucleotide Sequencing methods, Plants genetics, Pollen genetics
Abstract

Pollen metabarcoding has received much attention recently for its potential to increase taxonomic resolution of the identifications of pollen grains necessary for various public health, ecological and environmental inquiry. However, methodologies implemented are widely varied across studies confounding comparisons and casting uncertainty on the reliability of results. In this study, we investigated part of the methodology, the effects of level of exine rupture and lysis incubation time, on the performance of DNA extraction and Illumina sequencing. We examined 15 species of plants from 12 families with pollen that varies in size, shape, and aperture number to evaluate effort necessary for exine rupture. Then created mock communities of 14 of the species from DNA extractions at 4 levels of exine rupture (0, 33, 67, and 100%) and two levels of increased lysis incubation time without exine rupture (2 or 24 hours). Quantities of these DNA extractions displayed a positive correlation between increased rupture and DNA yield, however increasing time of lysis incubation was associated with decreased DNA yield. Illumina sequencing was performed with these artificial community treatments with three common plant DNA barcode regions (rbcL, ITS1, ITS2) with two different primer pairings for ITS2 and rbcL. We found decreased performance in treatments with 0% or 100% exine rupture compared to 33% and 67% rupture, based on deviation from expected proportions and species retrieval, and increased lysis incubation was found to be detrimental to results., Competing Interests: The authors have declared that no competing interests exist.

Published
2021
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34. Repositories for Taxonomic Data: Where We Are and What is Missing.

Author

Miralles A, Bruy T, Wolcott K, Scherz MD, Begerow D, Beszteri B, Bonkowski M, Felden J, Gemeinholzer B, Glaw F, Glöckner FO, Hawlitschek O, Kostadinov I, Nattkemper TW, Printzen C, Renz J, Rybalka N, Stadler M, Weibulat T, Wilke T, Renner SS, and Vences M

Subjects
Animals, Databases, Factual trends, Classification, Databases, Factual standards
Abstract

Natural history collections are leading successful large-scale projects of specimen digitization (images, metadata, DNA barcodes), thereby transforming taxonomy into a big data science. Yet, little effort has been directed towards safeguarding and subsequently mobilizing the considerable amount of original data generated during the process of naming 15,000-20,000 species every year. From the perspective of alpha-taxonomists, we provide a review of the properties and diversity of taxonomic data, assess their volume and use, and establish criteria for optimizing data repositories. We surveyed 4113 alpha-taxonomic studies in representative journals for 2002, 2010, and 2018, and found an increasing yet comparatively limited use of molecular data in species diagnosis and description. In 2018, of the 2661 papers published in specialized taxonomic journals, molecular data were widely used in mycology (94%), regularly in vertebrates (53%), but rarely in botany (15%) and entomology (10%). Images play an important role in taxonomic research on all taxa, with photographs used in >80% and drawings in 58% of the surveyed papers. The use of omics (high-throughput) approaches or 3D documentation is still rare. Improved archiving strategies for metabarcoding consensus reads, genome and transcriptome assemblies, and chemical and metabolomic data could help to mobilize the wealth of high-throughput data for alpha-taxonomy. Because long-term-ideally perpetual-data storage is of particular importance for taxonomy, energy footprint reduction via less storage-demanding formats is a priority if their information content suffices for the purpose of taxonomic studies. Whereas taxonomic assignments are quasifacts for most biological disciplines, they remain hypotheses pertaining to evolutionary relatedness of individuals for alpha-taxonomy. For this reason, an improved reuse of taxonomic data, including machine-learning-based species identification and delimitation pipelines, requires a cyberspecimen approach-linking data via unique specimen identifiers, and thereby making them findable, accessible, interoperable, and reusable for taxonomic research. This poses both qualitative challenges to adapt the existing infrastructure of data centers to a specimen-centered concept and quantitative challenges to host and connect an estimated $ \le $2 million images produced per year by alpha-taxonomic studies, plus many millions of images from digitization campaigns. Of the 30,000-40,000 taxonomists globally, many are thought to be nonprofessionals, and capturing the data for online storage and reuse therefore requires low-complexity submission workflows and cost-free repository use. Expert taxonomists are the main stakeholders able to identify and formalize the needs of the discipline; their expertise is needed to implement the envisioned virtual collections of cyberspecimens. [Big data; cyberspecimen; new species; omics; repositories; specimen identifier; taxonomy; taxonomic data.]., (© The Author(s) 2020. Published by Oxford University Press.)

Published
2020
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35. Genotypic and phenotypic distinctness of restored and indigenous populations of Pimpinella saxifraga L. 8 or more years after restoration.

Author

Gemeinholzer B, Reiker J, Müller CM, and Wissemann V

Subjects
Ecosystem, Genotype, Germany, Phenotype, Time, Environmental Restoration and Remediation, Pimpinella genetics
Abstract

The recovery of altered or damaged ecosystems demands large-scale reintroductions of seeds. In the past, ecological restoration in Germany was carried out with non-local seeds of naturally occurring species. We here analysed whether the genetic pattern of the introduced non-local seeds (R = restored) of Pimpinella saxifraga are still detectable several years after application and whether the phenotype differs from that of the regional gene pool (I = indigenous) of the species. We collected material from individuals of R and I sites, conducted a common garden experiment and tested for genetic, morphological and phenotypic differences. In a cutting experiment we investigate treatment effects on indigenous and restored populations. At all investigated sites we only found P. saxifraga individuals with comparatively similar genome sizes. The population genetic analysis revealed two large and quite distinct molecular clusters, separating indigenous and restored individuals along the first axis. None of the vegetative, but two of the reproductive fitness parameters differed between individuals of the R and I sites. Cutting always had a significant influence on all analysed vegetative and reproductive fitness parameters, regardless of the individuals' origin. The effects of mowing always mask origin-specific characteristics, which then disappear. Genotypic coexistence reduces the availability of niches for the local genotype and may eventually lead to genotypic competition or introgression. We therefore recommend not to use non-local genotypes of this species in the region. Instead, we recommend using the genetically diverse local genotypes of P. saxifraga for restoration purposes., (© 2020 The Authors. Plant Biology published by John Wiley & Sons Ltd on behalf of German Society for Plant Sciences, Royal Botanical Society of the Netherlands.)

Published
2020
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36. BCdatabaser: on-the-fly reference database creation for (meta-)barcoding.

Author

Keller A, Hohlfeld S, Kolter A, Schultz J, Gemeinholzer B, and Ankenbrand MJ

Subjects
Animals, DNA Barcoding, Taxonomic, Databases, Factual, Documentation, Software
Abstract

Summary: DNA barcoding and meta-barcoding have become irreplaceable in research and applications, where identification of taxa alone or within a mixture, respectively, becomes relevant. Pioneering studies were in the microbiological context, yet nowadays also plants and animals become targeted. Given the variety of markers used, formatting requirements for classifiers and constant growth of primary databases, there is a need for dedicated reference database creation. We developed a web and command-line interface to generate such on-the-fly for any applicable marker and taxonomic group with optional filtering, formatting and restriction specific for (meta-)barcoding purposes. Also, databases optionally receive a DOI, making them well-documented with meta-data, publicly sharable and citable., Availability and Implementation: source code: https://www.github.com/molbiodiv/bcdatabaser, webservice: https://bcdatabaser.molecular.eco, documentation: https://molbiodiv.github.io/bcdatabaser., (© The Author(s) 2020. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published
2020
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37. Open Data in Global Environmental Research: The Belmont Forum's Open Data Survey.

Author

Schmidt B, Gemeinholzer B, and Treloar A

Subjects
Cooperative Behavior, Environment, Information Dissemination, Research
Abstract

This paper presents the findings of the Belmont Forum's survey on Open Data which targeted the global environmental research and data infrastructure community. It highlights users' perceptions of the term "open data", expectations of infrastructure functionalities, and barriers and enablers for the sharing of data. A wide range of good practice examples was pointed out by the respondents which demonstrates a substantial uptake of data sharing through e-infrastructures and a further need for enhancement and consolidation. Among all policy responses, funder policies seem to be the most important motivator. This supports the conclusion that stronger mandates will strengthen the case for data sharing.

Published
2016
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38. Does origin always matter? Evaluating the influence of nonlocal seed provenances for ecological restoration purposes in a widespread and outcrossing plant species.

Author

Reiker J, Schulz B, Wissemann V, and Gemeinholzer B

Abstract

For restoration purposes, nature conservation generally enforces the use of local seed material based on the "local-is-best" (LIB) approach. However, in some cases recommendations to refrain from this approach have been made. Here we test if a common widespread species with no obvious signs of local adaptation may be a candidate species for abandoning LIB during restoration. Using 10 microsatellite markers we compared population genetic patterns of the generalist species Daucus carota in indigenous and formerly restored sites (nonlocal seed provenances). Gene diversity overall ranged between H e = 0.67 and 0.86 and showed no significant differences between the two groups. Hierarchical AMOVA and principal component analysis revealed very high genetic population admixture and negligible differentiation between indigenous and restored sites (F CT = 0.002). Moreover, differentiation between groups was caused by only one outlier population, where inbreeding effects are presumed. We therefore conclude that the introduction of nonlocal seed provenances in the course of landscape restoration did not jeopardize regional species persistence by contributing to inbreeding or outbreeding depressions, or any measurable adverse population genetic effect. On the basis of these results, we see no obvious objections to the current practice to use the 10-fold cheaper, nonlocal seed material of D. carota for restoration projects.

Published
2015
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39. Metabarcoding vs. morphological identification to assess diatom diversity in environmental studies.

Author

Zimmermann J, Glöckner G, Jahn R, Enke N, and Gemeinholzer B

Subjects
Algorithms, Biodiversity, Diatoms cytology, Diatoms genetics, Genetic Variation, Molecular Sequence Data, Rivers microbiology, Sequence Analysis, DNA, Water Quality standards, Workflow, Cytological Techniques, DNA Barcoding, Taxonomic methods, Diatoms classification, Diatoms isolation & purification, Fresh Water microbiology, Microscopy methods
Abstract

Diatoms are frequently used for water quality assessments; however, identification to species level is difficult, time-consuming and needs in-depth knowledge of the organisms under investigation, as nonhomoplastic species-specific morphological characters are scarce. We here investigate how identification methods based on DNA (metabarcoding using NGS platforms) perform in comparison to morphological diatom identification and propose a workflow to optimize diatom fresh water quality assessments. Diatom diversity at seven different sites along the course of the river system Odra and Lusatian Neisse from the source to the mouth is analysed with DNA and morphological methods, which are compared. The NGS technology almost always leads to a higher number of identified taxa (270 via NGS vs. 103 by light microscopy LM), whose presence could subsequently be verified by LM. The sequence-based approach allows for a much more graduated insight into the taxonomic diversity of the environmental samples. Taxa retrieval varies considerably throughout the river system, depending on species occurrences and the taxonomic depth of the reference databases. Mostly rare taxa from oligotrophic parts of the river systems are less well represented in the reference database used. A workflow for DNA-based NGS diatom identification is presented. 28 000 diatom sequences were evaluated. Our findings provide evidence that metabarcoding of diatoms via NGS sequencing of the V4 region (18S) has a great potential for water quality assessments and could complement and maybe even improve the identification via light microscopy., (© 2014 John Wiley & Sons Ltd.)

Published
2015
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40. The Global Genome Biodiversity Network (GGBN) Data Portal.

Author

Droege G, Barker K, Astrin JJ, Bartels P, Butler C, Cantrill D, Coddington J, Forest F, Gemeinholzer B, Hobern D, Mackenzie-Dodds J, Ó Tuama É, Petersen G, Sanjur O, Schindel D, and Seberg O

Subjects
DNA isolation & purification, Genome, Internet, Sequence Analysis, DNA, Biodiversity, Biological Specimen Banks, Databases, Nucleic Acid, Genomics
Abstract

The Global Genome Biodiversity Network (GGBN) was formed in 2011 with the principal aim of making high-quality well-documented and vouchered collections that store DNA or tissue samples of biodiversity, discoverable for research through a networked community of biodiversity repositories. This is achieved through the GGBN Data Portal (http://data.ggbn.org), which links globally distributed databases and bridges the gap between biodiversity repositories, sequence databases and research results. Advances in DNA extraction techniques combined with next-generation sequencing technologies provide new tools for genome sequencing. Many ambitious genome sequencing projects with the potential to revolutionize biodiversity research consider access to adequate samples to be a major bottleneck in their workflow. This is linked not only to accelerating biodiversity loss and demands to improve conservation efforts but also to a lack of standardized methods for providing access to genomic samples. Biodiversity biobank-holding institutions urgently need to set a standard of collaboration towards excellence in collections stewardship, information access and sharing and responsible and ethical use of such collections. GGBN meets these needs by enabling and supporting accessibility and the efficient coordinated expansion of biodiversity biobanks worldwide.

Published
2014
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41. The DNA bank network: the start from a german initiative.

Author

Gemeinholzer B, Dröge G, Zetzsche H, Haszprunar G, Klenk HP, Güntsch A, Berendsohn WG, and Wägele JW

Abstract

The explicit aim of the DNA Bank Network is to close the divide between biological specimen collections and molecular sequence databases. It provides a technically optimized DNA and tissue collection service facility in the interest of all biological research, with access to well-documented DNA-containing samples and voucher specimens as well as to corresponding molecular data stored in public sequence databases. The Network enables scientists to (i) query and order DNA samples of organisms collected from natural habitats via a shared Web portal, (ii) store DNA samples for reference under optimal conditions after project completion or data publication, (iii) obtain DNA material to conduct new studies or to extend and complement previous investigations, and (iv) support good scientific practice as the deposition of DNA samples and related specimens facilitates the verification of published results.

Published
2011
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42. Incongruent plastid and nuclear DNA phylogenies reveal ancient intergeneric hybridization in Pilosella hawkweeds (Hieracium, Cichorieae, Asteraceae).

Author

Fehrer J, Gemeinholzer B, Chrtek J Jr, and Bräutigam S

Subjects
Asteraceae classification, Cell Nucleus genetics, DNA, Chloroplast chemistry, DNA, Intergenic genetics, Endoribonucleases genetics, Evolution, Molecular, Molecular Sequence Data, Nucleotidyltransferases genetics, Plastids genetics, RNA, Transfer genetics, Sequence Analysis, DNA, Asteraceae genetics, DNA, Chloroplast genetics, Hybridization, Genetic genetics, Phylogeny
Abstract

Phylogenetic relationships for Hieracium subgen. Pilosella were inferred from chloroplast (trnT-trnL, matK) and nuclear (ITS) sequence data. Chloroplast markers revealed the existence of two divergent haplotype groups within the subgenus that did not correspond to presumed relationships. Furthermore, chloroplast haplotypes of the genera Hispidella and Andryala nested each within one of these groups. In contrast, ITS data were generally in accord with morphology and other evidence and were therefore assumed to reflect the true phylogeny. They revealed a sister relationship between Pilosella and Hispidella and a joint clade of Hieracium subgenera Hieracium and Chionoracium (Stenotheca) while genus Andryala represented a third major lineage of the final ingroup cluster. Detailed analysis of trnT-trnL character state evolution along the ITS tree suggested two intergeneric hybridization events between ancestral lineages that resulted in cytoplasmic transfer (from Hieracium/Chionoracium to Pilosella, and from the introgressed Pilosella lineage to Andryala). These chloroplast capture events, the first of which involved a now extinct haplotype, are the most likely explanation for the observed incongruencies between plastid and nuclear DNA markers.

Published
2007
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