Guidelines for the Documentation and Care of Invertebrate Fossil Collections

2000 ◽  
Vol 10 ◽  
pp. 51-64
Author(s):  
Russell D. White
Keyword(s):  
Natural History ◽  
North American ◽  
Collection Management ◽  
University Faculty ◽  
Natural History Collections ◽  
Invertebrate Paleontology ◽  
Invertebrate Fossils

COLLECTIONS OF invertebrate fossils are commonly maintained in museums, at universities, and by individual researchers and interested private collectors. Twenty years ago, the Committee on North American Resources in Invertebrate Paleontology (CONARIP) estimated that there more than 550 institutions housed invertebrate paleontological macro- and micro- fossil collections (Glenister, 1977). Historically, collections have been developed, managed and maintained by paleontologists as a resource for their research (e.g., museum curator or university faculty) (Hebda, 1985). Since the early 1970s, the field of collection management has evolved and the increased professionalization of collection manager positions has been instrumental in improving the management and preservation of invertebrate fossils as well as other natural history collections (Cato, 1991; Simmons, 1993; Simmons, 1995).

scholarly journals Assessment of North American arthropod collections: prospects and challenges for addressing biodiversity research

PeerJ ◽  
2019 ◽  
Vol 7 ◽  
pp. e8086 ◽  
Author(s):  
Neil S. Cobb ◽  
Lawrence F. Gall ◽  
Jennifer M. Zaspel ◽  
Nicolas J. Dowdy ◽  
Lindsie M. McCabe ◽  
...  
Keyword(s):  
United States ◽  
Natural History ◽  
North American ◽  
The United States ◽  
Biodiversity Data ◽  
Biodiversity Crisis ◽  
Biodiversity Research ◽  
Natural History Collections ◽  
Rate Of Increase ◽  
Crucial Information

Over 300 million arthropod specimens are housed in North American natural history collections. These collections represent a “vast hidden treasure trove” of biodiversity −95% of the specimen label data have yet to be transcribed for research, and less than 2% of the specimens have been imaged. Specimen labels contain crucial information to determine species distributions over time and are essential for understanding patterns of ecology and evolution, which will help assess the growing biodiversity crisis driven by global change impacts. Specimen images offer indispensable insight and data for analyses of traits, and ecological and phylogenetic patterns of biodiversity. Here, we review North American arthropod collections using two key metrics, specimen holdings and digitization efforts, to assess the potential for collections to provide needed biodiversity data. We include data from 223 arthropod collections in North America, with an emphasis on the United States. Our specific findings are as follows: (1) The majority of North American natural history collections (88%) and specimens (89%) are located in the United States. Canada has comparable holdings to the United States relative to its estimated biodiversity. Mexico has made the furthest progress in terms of digitization, but its specimen holdings should be increased to reflect the estimated higher Mexican arthropod diversity. The proportion of North American collections that has been digitized, and the number of digital records available per species, are both much lower for arthropods when compared to chordates and plants. (2) The National Science Foundation’s decade-long ADBC program (Advancing Digitization of Biological Collections) has been transformational in promoting arthropod digitization. However, even if this program became permanent, at current rates, by the year 2050 only 38% of the existing arthropod specimens would be digitized, and less than 1% would have associated digital images. (3) The number of specimens in collections has increased by approximately 1% per year over the past 30 years. We propose that this rate of increase is insufficient to provide enough data to address biodiversity research needs, and that arthropod collections should aim to triple their rate of new specimen acquisition. (4) The collections we surveyed in the United States vary broadly in a number of indicators. Collectively, there is depth and breadth, with smaller collections providing regional depth and larger collections providing greater global coverage. (5) Increased coordination across museums is needed for digitization efforts to target taxa for research and conservation goals and address long-term data needs. Two key recommendations emerge: collections should significantly increase both their specimen holdings and their digitization efforts to empower continental and global biodiversity data pipelines, and stimulate downstream research.

Orphaned and Endangered Collections in Invertebrate Paleontology: A Call for a National Solution

2000 ◽  
Vol 10 ◽  
pp. 43-50
Author(s):  
Warren D. Allmon ◽  
Meredith A. Lane
Keyword(s):  
Natural History ◽  
Global Scale ◽  
Historical Record ◽  
Geological Time ◽  
The Past ◽  
Natural History Collections ◽  
Invertebrate Paleontology ◽  
Big Picture ◽  
Ecological Associations ◽  
Regional Climatic Change

WITHIN BIOLOGY, the consummate synthetic, big-picture science is systematics and the fundamental resource and tool for systematics is natural history collections. Without systematics there is no unifying theme to the study of biology. Without natural history collections there is no systematics. Society and the institutions that house natural history collections must rediscover the value of those collections. These collections are a world treasure, a cultural heritage, an intellectual trust, a societal and institutional responsibility.Paleontology and paleontological collections contribute uniquely to the sciences of systematics and ecology. They provide the record of change through geological time evidence of the changes in the characteristics of species, changes in ecological associations of biota, and a record of abiotic global and regional climatic change. The study of this historical record allows the identification of the locations of certain sets of conditions from the past, illuminates our understanding of the present, and enables our prediction of future changes on a global scale.

scholarly journals Leveraging the Benefits of Open Data Services for Natural History Collection Management

2018 ◽  
Vol 2 ◽  
pp. e25882
Author(s):  
Maarten Schermer ◽  
Daphne Duin
Keyword(s):  
Natural History ◽  
The Netherlands ◽  
Large Scale ◽  
Open Data ◽  
Collection Management ◽  
Collections Management ◽  
Biodiversity Data ◽  
Data Services ◽  
Natural History Collections ◽  
Digital Collection

The value of data present in natural history collections for research and collection management cannot be overstated. Naturalis Biodiversity Center, home to one of the largest natural history collections in the world, completed a large-scale digitisation project resulting in the registration of more than 38 million objects, many of them annotated with descriptive metadata, such as geographic coordinates and multimedia content. While digitisation is ongoing, we are now also looking for ways to leverage our digital collection, both for the benefit of collection management and that of networking with other natural history collections. To this end, we developed the Netherlands Biodiversity Data Services, providing centralized access to our collection data via state of the art, open access interfaces. Full, centralized access to the digital collection allows us to combine the data with other sources, such as collection scans focusing on the physical condition and accessibility of the collection. But also with data from external sources, such as the collection information of sister institutions, allowing for combining and comparing data, and exploring areas where collections can reinforce each other. Focusing on availability and accessibility, the services were deliberately designed as a versatile, low-level API to allow the use of our data with a broad variety of applications and services. These applications range from scientific research and remote mobile access to collection information, to “mash ups” with other data sources, apps and application in our own museum. We will demonstrate this range of applications through several examples, including the embedding of data in websites (example, Dutch Caribbean Species Register: http://www.dutchcaribbeanspecies.org/linnaeus_ng/app/views/species/nsr_taxon.php?id=177968&cat=165), use in the development of deep learning models, thematic portals (example, Naturalis meteorite collection: http://bioportal.naturalis.nl/result?theme=meteorites&language=en) and the development of Java- and R-clients. This presentation ties in with Max Caspers' presentation “Advancing collections management with the Netherlands Biodiversity Data Services“, in which he will demonstratie the potential of the services described in this presentation for the area of collections management, specifically.

scholarly journals DINA—Development of open source and open services for natural history collections & research

2020 ◽  
Vol 4 ◽  
Author(s):  
Falko Glöckler ◽  
James Macklin ◽  
David Shorthouse ◽  
Christian Bölling ◽  
Satpal Bilkhu ◽  
...  
Keyword(s):  
Natural History ◽  
Open Source ◽  
Open Source Software ◽  
Web Application ◽  
Tracking System ◽  
Molecular Data ◽  
Collection Management ◽  
Agile Development ◽  
Natural History Collections ◽  
Code Base

The DINA Consortium (DINA = “DIgital information system for NAtural history data”, https://dina-project.net) is a framework for like-minded practitioners of natural history collections to collaborate on the development of distributed, open source software that empowers and sustains collections management. Target collections include zoology, botany, mycology, geology, paleontology, and living collections. The DINA software will also permit the compilation of biodiversity inventories and will robustly support both observation and molecular data. The DINA Consortium focuses on an open source software philosophy and on community-driven open development. Contributors share their development resources and expertise for the benefit of all participants. The DINA System is explicitly designed as a loosely coupled set of web-enabled modules. At its core, this modular ecosystem includes strict guidelines for the structure of Web application programming interfaces (APIs), which guarantees the interoperability of all components (https://github.com/DINA-Web). Important to the DINA philosophy is that users (e.g., collection managers, curators) be actively engaged in an agile development process. This ensures that the product is pleasing for everyday use, includes efficient yet flexible workflows, and implements best practices in specimen data capture and management. There are three options for developing a DINA module: create a new module compliant with the specifications (Fig. 1), modify an existing code-base to attain compliance (Fig. 2), or wrap a compliant API around existing code that cannot be or may not be modified (e.g., infeasible, dependencies on other systems, closed code) (Fig. 3). create a new module compliant with the specifications (Fig. 1), modify an existing code-base to attain compliance (Fig. 2), or wrap a compliant API around existing code that cannot be or may not be modified (e.g., infeasible, dependencies on other systems, closed code) (Fig. 3). All three of these scenarios have been applied in the modules recently developed: a module for molecular data (SeqDB), modules for multimedia, documents and agents data and a service module for printing labels and reports: The SeqDB collection management and molecular tracking system (Bilkhu et al. 2017) has evolved through two of these scenarios. Originally, the required architectural changes were going to be added into the codebase, but after some time, the development team recognised that the technical debt inherent in the project wasn’t worth the effort of modification and refactoring. Instead a new codebase was created bringing forward the best parts of the system oriented around the molecular data model for Sanger Sequencing and Next Generation Sequencing (NGS) workflows. In the case of the Multimedia and Document Store module and the Agents module, a brand new codebase was established whose technology choices were aligned with the DINA vision. These two modules have been created from fundamental use cases for collection management and digitization workflows and will continue to evolve as more modules come online and broaden their scope. The DINA Labels & Reporting module is a generic service for transforming data in arbitrary printable layouts based on customizable templates. In order to use the module in combination with data managed in collection management software Specify (http://specifysoftware.org) for printing labels of collection objects, we wrapped the Specify 7 API with a DINA-compliant API layer called the “DINA Specify Broker”. This allows for using the easy-to-use web-based template engine within the DINA Labels & Reports module without changing Specify’s codebase. In our presentation we will explain the DINA development philosophy and will outline benefits for different stakeholders who directly or indirectly use collections data and related research data in their daily workflows. We will also highlight opportunities for joining the DINA Consortium and how to best engage with members of DINA who share their expertise in natural science, biodiversity informatics and geoinformatics.

LepNet: The Lepidoptera of North America Network

Zootaxa ◽  
2017 ◽  
Vol 4247 (1) ◽  
pp. 73 ◽  
Author(s):  
KATJA C. SELTMANN ◽  
NEIL S. COBB ◽  
LAWRENCE F. GALL ◽  
CHARLES R. BARTLETT ◽  
M. ANNE BASHAM ◽  
...  
Keyword(s):  
United States ◽  
North America ◽  
Natural History ◽  
North American ◽  
Evolutionary Biology ◽  
Biodiversity Data ◽  
Natural History Collections ◽  
Digital Formats ◽  
Global Research

The Lepidoptera of North America Network, or LepNet, is a digitization effort recently launched to mobilize biodiversity data from 3 million specimens of butterflies and moths in United States natural history collections (http://www.lep-net.org/). LepNet was initially conceived as a North American effort but the project seeks collaborations with museums and other organizations worldwide. The overall goal is to transform Lepidoptera specimen data into readily available digital formats to foster global research in taxonomy, ecology and evolutionary biology. 

Institutional and Individual Orphaned Collections

2000 ◽  
Vol 10 ◽  
pp. 37-42
Author(s):  
Julia Golden
Keyword(s):  
Natural History ◽  
The State ◽  
Academic Department ◽  
Governmental Agencies ◽  
Natural History Collections ◽  
Invertebrate Paleontology ◽  
The Future

“ORPHAN” IS AN incongruous word to apply to something dead for millions of years. But there is no better term to describe the state of an invertebrate paleontology collection whose guardian can no longer care for it. The numbers of specimens in invertebrate fossil collections do not set them apart from other natural history collections; however, add weight and volume, and it is obvious why adopting these orphans pose special problems. The workshop coordinators divided the discussion of orphaned collections into those held by industry and governmental agencies (see Allmon, Chapter 4, this volume) and those housed by institutions and individuals addressed here. Topics discussed at this session of the workshop included: the definitions of orphaned and endangered collections, why collections become orphans, which collections are most vulnerable, and what, if anything, can be done to prevent orphaned collections in the future. I have attempted to present an objective report of the discussions and proposed suggestions, but my bias as curator of a collection housed within an academic department may have crept in.

scholarly journals The Genomic Resources Collection Policy of the Finnish Museum of Natural History

2021 ◽  
Vol 7 ◽  
Author(s):  
Gunilla Ståhls ◽  
Alexandre Aleixo ◽  
Marko-Tapio Hyvärinen ◽  
Anniina Kuusijärvi ◽  
Leena Myllys ◽  
...  
Keyword(s):  
Natural History ◽  
Biological Diversity ◽  
Animal Tissue ◽  
Collection Management ◽  
Collections Management ◽  
Tissue Samples ◽  
Genomic Resources ◽  
Natural History Collections ◽  
Genome Level ◽  
Research And Education

The Genomic Resources Collection is a separate, independently managed part of the natural history collections of the Finnish Museum of Natural History Luomus specifically intended for consumptive research. The GRC policy deals with the materials that are archived for the very purpose of enabling the study of biological diversity at the genome level, DNA extractions of animal, fungal and plant specimens, and animal tissue samples stored deep-frozen for purposes of future DNA extraction. The GRC policy defines the purpose of the collections, the objectives and content of the procedures and activities related to them, the distribution of responsibilities for collection management and maintenance in Luomus, and the principles of collection accumulation, preservation and accessibility. The aim of the GRC is to store and loan genomic samples for research purposes. In taxonomic coverage the collection overlaps with all the taxonomically delimited specimen collections managed by the Zoology and Botany Units, but is distinguished as being directed to preserve the genomic (DNA) information irrespective of the phenotypic variation that are the focus of specimen collections. The GRC includes both Finnish and foreign samples, all legally and ethically obtained, mostly linked to a specimen voucher in the taxonomic collections. The GRC samples are documented and trackable in Luomus collections management system. In accordance with the Universities Act, the GRC belongs to the national natural science collections of Luomus. For their part, the GRC collection implement the mission of Luomus, which is to be “responsible for the preservation, accumulation and exhibition of the national natural history collections and for research and education relating to them”.

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