Natural History Collections in the Science of the 21st Century. Группа авторов

Natural History Collections in the Science of the 21st Century - Группа авторов


Скачать книгу
Their results show how new molecular and genomic methods can be used to access information residing in herbaria, rich in species of agricultural interest. These analyses make it possible to trace the origin, the evolutionary history and the dispersal routes of diseases that can have a major impact on the regional economy. The role of collections in understanding biological invasions is illustrated by Villemant et al. (Chapter 14), concerning the Asian hornet Vespa velutina, the first exotic species of Vespidae acclimatized in Europe. Their study underlines the importance of gaining data from collections in order to discover the origin of invasive lineages, the structure of diversity in its area of origin, and thus to make more accurate predictions on potential areas of invasion.

      As mentioned earlier, using collections to answer targeted questions requires methodological adjustments. Sometimes the data from the collections are not sufficient to answer a question. Nevertheless, taking them into account allows us to reframe the subject and adjust the protocol. This iterative aspect, so fundamental to scientific research, is underlined well by Robuchon et al.’s study (Chapter 15). The existing data do not allow us to reach clear conclusions. However, when supplemented by targeted collections of the same species at the same locations, they can represent a solid past reference point for research on community change and local extinctions.

      Despite their number, the chapters presented in this book only offer a glimpse of the diversity of research on global changes for which collections are an indispensable source of data. The review in Chapter 16 (by Muller et al.) on herbaria confirms that there is already a surprising diversity of approaches, even for this type of collection alone. The contribution of collections to understanding the effects of global change is clearly still in its infancy.

       1.3.4. Designing the science of the future based on collections

      As all of these examples show, collections-based research is both a user of collections to answer specific questions and a driving force of new designs for collections. The chapters in this book highlight different know-how that also enrich collections.

      Today, an important part of the research on databases from natural history collections is destined to validate the data or neutralize their biases with respect to the questions asked. In Chapter 18, Monnet et al. discuss the provision and use of data via data portals or aggregators, as part of a traceability system from the collection specimen to the last of a series of users. Indeed, over the last two decades, institutions have made enormous efforts to make their data available and the number of research studies that use them is increasing exponentially. Scientific journals also play a fundamental role in recommending or requiring the availability of the data used. Nevertheless, the whole practice needs to be reviewed with rigor, and data processing and use pipelines that are more in line with principles of validation and traceability need to be built. The monitoring of the evolution of knowledge on specimens, the association of the various information obtained for the same specimen (Gene Bank Accession Number, GBIF ID, etc.), as well as that of the recovery of resampled data by other research groups are still very limited. Considering the fact that database portals and aggregators are designed to last over time and cannot be reconstructed with each new study, it is clear that new procedures must be implemented in this regard.

      Questioning the collections, their values, their needs for maintenance and continuity are part of the daily life of scientists in charge of collections. This link also leads to numerous questions not only about how to add information and ensure its traceability, as proposed in the studies in Chapters 17 (Garrouste) and 18 (Monnet et al.), but also about their raison d’être and their future. Bahuchet’s study (Chapter 19) explores this issue through an analysis of biocultural collections. The basic question “do we need biocultural collections?” is posed with regard to the objects that are essential for testifying the relationship between people and nature. This question concerns all types of collections. It shows us that decisions concerning a collection cannot be taken without considering the scientific context that gave rise to their constitution.

      As a conclusion, Chapter 21 questions what contributions collections will make to future science. In retrospect, it would have been difficult at the end of the 19th century to imagine much of the research currently being conducted on collections. The same is true for our ability to predict in detail the societal needs and scientific insights of the next century and so on. Nevertheless, two ideas can help us: on the one hand, if we consider the set of practices and principles that have allowed the conservation of the rich information residing in the collections; on the other hand, if we appreciate the evolution of systematics, the science that has served as a guideline for the establishment of a large number of the collections. These two elements already show us the future potential of research on collections.

      Amano, T., Sandel, B., Eager, H., Bulteau, E., Svenning, J.-S., Dalsgaard, B., Rahbek, C., Davies, R.G., Sutherland, W.J. (2014). Global distribution and drivers of language extinction risk. Proceedings of the Royal Society B: Biological Sciences, 281(1793), 17–19.

      Barnosky, A.D., Matzke, N., Tomiya, S., Wogan, G.O.U., Swartz, B., Quental, T.B., Marshall, C., McGuire, J.L., Lindsey, E.L., Maguire, K.C., Mersey, B., Ferrer, E.A. (2011). Has the Earth’s sixth mass extinction already arrived? Nature, 471(7336), 51–57.

      Barnosky, A.D., Hadly, E.A., Bascompte, J., Berlow, E.L., Brown, J.H., Fortelius, M., Getz, W.M., Harte, J., Hastings, A., Marquet, P.A., Martinez, N.D., Mooers, A., Roopnarine, P., Vermeij, G., Williams, J.W., Gillespie, R., Kitzes, J., Marshall, C., Matzke, N., Mindell, D.P., Revilla, E., Smith, A.B. (2012). Approaching a state shift in Earth’s biosphere. Nature, 486 (7401), 52–58 [Online]. Available at: https://doi.org/10.1038/nature11018.

      Carlson, C.J. (2020). From PREDICT to prevention, one pandemic later. The Lancet [Online]. Available at: https://doi.org/10.1016/S2666-5247(20)30002-1.


Скачать книгу