THE MARINE SHELLED MOLLUSCA OF WEST MALAYSIA AND SINGAPORE PART 1. GENERAL INTRODUCTION AND AN ACCOUNT OF THE COLLECTING STATIONS

Between 1950 and 1960 a large collection of marine Molluscawas made in Singapore waters, mostly at coastal sites on Singaporeisland and neighbouring small islands, but some specimens werecollected by dredging in the same general area. The specimenswere photographed, provisionally identified in Singapore, andthen transferred to Philadelphia where they were incorporatedinto the collections of the Natural Science Foundation of Philadelphia.In 1973 and 1974 another large collection of marine Molluscawas made on the east and west coasts of West Malaysia. Thisincluded specimens collected at many coastal sites and smallislands off both coasts, and also specimens from deeper watercollected from commercial trawl hauls of ‘trash fish’due to be processed into fish meal. After preliminary identificationthese specimens were posted to Britain and were finally identifiedat the British Museum (Natural History). The majority of thesespecimens were incorporated into the collections at the Museum(B.M.(N.H.)), as also were the photographs of the Singaporespecimens. This paper provides an account of the collecting stations inWest Malaysia and Singapore, grouping the information gainedinto sections on rocky shores, coral reefs, sandy shores, mangroves,and sublittoral molluscs. Many species of bivalve,and some gastropods,are commercially exploited via the market stalls of West Malaysiaand of Singapore, and these are recorded. Part-2, and Part 3, provide full information on the speciesencountered in the region, and the localities at which theywereindividually found, for the Gastropoda and for the Bivalviarespectively. Where possible, the local Malay names of molluscanspecies are specified. The use of bold type recording localitydata indicates that specimens of that species and from thatlocality have been deposited in the collections of the Museum(B.M.(N.H.)). For the majority of species which are not representedthus in the collections, there are photographs derived fromspecimens which have been deposited at Phildelphia.     

中国兽类标本收藏概略

兽类标本收藏是兽类学的基础,直接关系到兽类学以及分类学、生态学、动物地理学、形态学、古生物学与进化、考古学等领域的进展。在旧中国,由于当时国内兽类学基本上是个空白领域,只有极个别研究机构及少数学校保存了少量标本,亦由于几经动乱,到新中国成立之时,已所剩无几。新中国建立以后,兽类学在中国才得到真正的发展。三十余年来,随着研究机构和高等学校的陆续建立和兽类调查研究工作的不断开展,兽类标本迅速发展,至今已初具规模。     

Rethinking the links between systematic studies and ex situ living collections as a contribution to the Global Strategy for Plant Conservation

The Muséum national d’histoire naturelle (MNHN) in Paris holds ca. 70 million specimens. The collections were in need of a strategy to ensure their long-term conservation. We discuss how the Department of Botanical and Zoological Gardens (DJBZ; tropical living collections), and the Department of Systematics and Evolution (DSE; herbarium) contribute to achieving GSPC’s Target 1 (‘a widely accessible working list of known plant species as a step towards a complete world flora’). The DJBZ started encouraging better management of the collections, evolving towards focused reference collections, where all specimens have well-documented collection data. The objective is to link all collections to a scientific referee. This has already been achieved for a number of taxa. The herbarium of the DSE (acronym P) is among the world’s largest (11 million specimens, including 400,000 types). The collection’s heterogeneity impedes access to its data, since P is a mix of recent well-documented collections and historical collections at various curational levels. P is currently under renovation, which started by mounting all ca. 2 million unmounted specimens. The project also includes databasing and imaging of every specimen. The database now holds around 1,000,000 records. For taxonomic studies, living collections are crucial, especially for plants that are not easily preserved as herbarium specimens. Living collections also enable studies impossible to forecast at the time of collecting. Herbaria and living collections should therefore be conceived as interoperable entities requiring common scientific curation. Through a combination of its assets and the expertise of its researchers, the MNHN is well prepared to tackle the new objectives of the GSPC beyond 2010.     

Phylogenomics using formalin‐fixed and 100+ year‐old intractable natural history specimens

Museum specimens provide a wealth of information to biologists, but obtaining genetic data from formalin‐fixed and fluid‐preserved specimens remains challenging. While DNA sequences have been recovered from such specimens, most approaches are time‐consuming and produce low data quality and quantity. Here, we use a modified DNA extraction protocol combined with high‐throughput sequencing to recover DNA from formalin‐fixed and fluid‐preserved snakes that were collected over a century ago and for which little or no modern genetic materials exist in public collections. We successfully extracted DNA and sequenced ultraconserved elements ( = 2318 loci) from 10 fluid‐preserved snakes and included them in a phylogeny with modern samples. This phylogeny demonstrates the general use of such specimens in phylogenomic studies and provides evidence for the placement of enigmatic snakes, such as the rare and never‐before sequenced Indian Xylophis stenorhynchus. Our study emphasizes the relevance of museum collections in modern research and simultaneously provides a protocol that may prove useful for specimens that have been previously intractable for DNA sequencing.     

A DNA ‘Barcode Blitz’: Rapid Digitization and Sequencing of a Natural History Collection

DNA barcoding protocols require the linkage of each sequence record to a voucher specimen that has, whenever possible, been authoritatively identified. Natural history collections would seem an ideal resource for barcode library construction, but they have never seen large-scale analysis because of concerns linked to DNA degradation. The present study examines the strength of this barrier, carrying out a comprehensive analysis of moth and butterfly (Lepidoptera) species in the Australian National Insect Collection. Protocols were developed that enabled tissue samples, specimen data, and images to be assembled rapidly. Using these methods, a five-person team processed 41,650 specimens representing 12,699 species in 14 weeks. Subsequent molecular analysis took about six months, reflecting the need for multiple rounds of PCR as sequence recovery was impacted by age, body size, and collection protocols. Despite these variables and the fact that specimens averaged 30.4 years old, barcode records were obtained from 86% of the species. In fact, one or more barcode compliant sequences (>487 bp) were recovered from virtually all species represented by five or more individuals, even when the youngest was 50 years old. By assembling specimen images, distributional data, and DNA barcode sequences on a web-accessible informatics platform, this study has greatly advanced accessibility to information on thousands of species. Moreover, much of the specimen data became publically accessible within days of its acquisition, while most sequence results saw release within three months. As such, this study reveals the speed with which DNA barcode workflows can mobilize biodiversity data, often providing the first web-accessible information for a species. These results further suggest that existing collections can enable the rapid development of a comprehensive DNA barcode library for the most diverse compartment of terrestrial biodiversity – insects.     

Marine biological collections in the 21st century

From the time of Linnaeus forward, it has been appreciated that collections, not least marine biological collections, are fundamental to the understanding of the biodiversity of life on earth, especially when they contain type specimens which define individual species. Historical collections are particularly rich in types and also represent a model of the biodiversity of marine life at the time of the collection, often centuries ago. The taxonomic and systematic importance of collections is well appreciated, as is the significance of time series of data in this period of anthropogenic environmental change. The application of new techniques increases the value of collected material even further, for example, molecular biology techniques allowing the recognition of new (often cryptic) taxa and their distributions, and stable isotope analyses releasing information on past and present ontogenies, geographical distributions and diets. Moreover the new era of information technology with associated digitization enables the release of the information stored in the collections to the scientists of the world.     

Biological collections in an ever changing world: Herbaria as tools for biogeographical and environmental studies

Plant specimens stored in herbaria are being used as never before to document the impacts of global change on humans and nature. However, published statistics on the use of biological collections are rare, and ecologists lack quantitative data demonstrating the relevance to science of herbarium specimens. I found 382 studies with original data that used herbarium specimens to document biogeographical patterns or environmental changes. Most studies are less than 10 years old, and only 1.4% of the herbarium specimens worldwide have been used to answer biogeographical or environmental questions. The vast majority (82%) of papers dealt with vascular plants, but some studies also used bryophytes, lichens, seaweeds and fungi. The herbarium specimens were collected from all continents, but most of the studies used specimens from North America (40% of studies) or Europe (28%). Many types of researches (conservation, plant disease, plant invasion, pollution, etc.) can be conducted using herbarium specimens. Climate change, and especially phenological reconstructions, are clearly emerging research topics. By group, small herbaria (<100,000 specimens) are consulted as often as very large herbaria (>1,000,000 specimens) for biogeographical and environmental research, but in most cases, only large facilities provide specimens collected worldwide. The median number of specimens per study in papers using computerized collections (15,295) was much higher than for papers that did not include electronic data (226). The use of molecular analyses to investigate herbarium specimens is still relatively unexplored, at least from biogeographical and environmental points of view. Combined with recently developed procedures to correct biases, herbarium specimens might provide in the near future exciting additional spatio-temporal insights that are currently unimaginable.     

Biological collections and ecological/environmental research: a review,some observations and a look to the future

Housed worldwide, mostly in museums and herbaria, is a vast collection of biological specimens developed over centuries. These biological collections, and associated taxonomic and systematic research, have received considerable long‐term public support. The work remaining in systematics has been expanding as the estimated total number of species of organisms on Earth has risen over recent decades, as have estimated numbers of undescribed species. Despite this increasing task, support for taxonomic and systematic research, and biological collections upon which such research is based, has declined over the last 30‐40 years, while other areas of biological research have grown considerably, especially those that focus on environmental issues. Reflecting increases in research that deals with ecological questions (e.g. what determines species distribution and abundance) or environmental issues (e.g. toxic pollution), the level of research attempting to use biological collections in museums or herbaria in an ecological/environmental context has risen dramatically during about the last 20 years. The perceived relevance of biological collections, and hence the support they receive, should be enhanced if this trend continues and they are used prominently regarding such environmental issues as anthropogenic loss of biodiversity and associated ecosystem function, global climate change, and decay of the epidemiological environment. It is unclear, however, how best to use biological collections in the context of such ecological/environmental issues or how best to manage collections to facilitate such use. We demonstrate considerable and increasingly realized potential for research based on biological collections to contribute to ecological/environmental understanding. However, because biological collections were not originally intended for use regarding such issues and have inherent biases and limitations, they are proving more useful in some contexts than in others. Biological collections have, for example, been particularly useful as sources of information regarding variation in attributes of individuals (e.g. morphology, chemical composition) in relation to environmental variables, and provided important information in relation to species' distributions, but less useful in the contexts of habitat associations and population sizes. Changes to policies, strategies and procedures associated with biological collections could mitigate these biases and limitations, and hence make such collections more useful in the context of ecological/environmental issues. Haphazard and opportunistic collecting could be replaced with strategies for adding to existing collections that prioritize projects that use biological collections and include, besides taxonomy and systematics, a focus on significant environmental/ecological issues. Other potential changes include increased recording of the nature and extent of collecting effort and information associated with each specimen such as nearby habitat and other individuals observed but not collected. Such changes have begun to occur within some institutions. Institutions that house biological collections should, we think, pursue a mission of ‘understanding the life of the planet to inform its stewardship’ ( Krishtalka & Humphrey, 2000 ), as such a mission would facilitate increased use of biological collections in an ecological/environmental context and hence lead to increased appreciation, encouragement and support from the public for these collections, their associated research, and the institutions that house them.     

Phylogenetic Diversity of New Zealand Gelidiales as Revealed by rbcL Sequence Data

Diversity and phylogenetic relationships of New Zealand representatives of the red algal order Gelidiales have been examined using rbcL sequence data. Extensive field collections have been made from throughout the New Zealand region. Six genera have been reported previously from New Zealand (Capreolia, Gelidium, Pterocladia, Pterocladiella, Pterocladiastrum, Ptilophora). This research has revealed species with very restricted local distributions, as well as the discovery of several undescribed, cryptic taxa. The common and widespread Gelidium caulacantheum is confirmed to be more closely related to Capreolia than to other species of Gelidium. The generic concept of Capreolia, based on life history characters, will need to be modified to accommodate additional species possessing “Gelidium” life histories. A species endemic to New Zealand, Gelidium ceramoides, has been found to differ significantly from all other members of the Gelidiales and requires reclassification in another genus and order. Examination of field collections and herbarium specimens in addition to molecular sequence data have led us to conclude that specimens previously placed in the genera Ptilophora and Pterocladiastrum belong within Pterocladia lucida.     

Amazonian biodiversity: assessing conservation priorities with taxonomic data

Data from 3991 records of museum collections representing 421 species of plants, arthropods, amphibians, fish, and primates were analyzed with GIS to identify areas of high species diversity and endemism in Amazonia. Of the 472 1 × 1° grid cells in Amazonia, only nine cells are included in the highest species diversity category (43–67 total species) and nine in the highest endemic species diversity category (4–13 endemic species). Over one quarter of the grid cells have no museum records of any of the organisms in our study. Little correspondence exists between the centers of species diversity identified by our collections-based data and those areas recommended for conservation in an earlier qualitative study of Amazonian biodiversity. Museum collections can play a vital role in identifying species-rich areas for potential conservation in Amazonia, but a concerted and structured effort to increase the number and distribution of collections is needed to take maximum advantage of the information they contain.     

What does it mean to be wild? Assessing human influence on the environments of nonhuman primate specimens in museum collections

ObjectivesNatural history collections are often thought to represent environments in a pristine natural state—free from human intervention—the so‐called “wild.” In this study, we aim to assess the level of human influence represented by natural history collections of wild‐collected primates over 120 years at the Smithsonian Institution''s National Museum of Natural History (NMNH).Materials and MethodsOur sample consisted of 875 catarrhine primate specimens in NMNH collections, representing 13 genera collected in 39 countries from 1882 to 2004. Using archival and accession information we determined the approximate locations from which specimens were collected. We then plotted location coordinates onto publicly available anthrome maps created by Ellis et al. (Global Ecology and Biogeography, 2010, 19, 589), which delineate terrestrial biomes of human population density and land use worldwide since the 1700s.ResultsWe found that among primates collected from their native ranges, 92% were from an environment that had some level of human impact, suggesting that the majority of presumed wild‐collected primate specimens lived in an environment influenced by humans during their lifetimes.DiscussionThe degree to which human‐modified environments may have impacted the lives of primates currently held in museum collections has been historically ignored, implicating unforeseen consequences for collection‐based research. While unique effects related to commensalism with humans remain understudied, effects currently attributed to natural phenomena may, in fact, be related to anthropogenic pressures on unmanaged populations of primates.     

Sequence capture phylogenomics of historical ethanol‐preserved museum specimens: Unlocking the rest of the vault

Natural history collections play a crucial role in biodiversity research, and museum specimens are increasingly being incorporated into modern genetics‐based studies. Sequence capture methods have proven incredibly useful for phylogenomics, providing the additional ability to sequence historical museum specimens with highly degraded DNA, which until recently have been deemed less valuable for genetic work. The successful sequencing of ultraconserved elements (UCEs) from historical museum specimens has been demonstrated on multiple tissue types including dried bird skins, formalin‐fixed squamates and pinned insects. However, no study has thoroughly demonstrated this approach for historical ethanol‐preserved museum specimens. Alongside sequencing of “fresh” specimens preserved in >95% ethanol and stored at ?80°C, we used extraction techniques specifically designed for degraded DNA coupled with sequence capture protocols to sequence UCEs from historical museum specimens preserved in 70%–80% ethanol and stored at room temperature, the standard for such ethanol‐preserved museum collections. Across 35 fresh and 15 historical museum samples of the arachnid order Opiliones, an average of 345 UCE loci were included in phylogenomic matrices, with museum samples ranging from six to 495 loci. We successfully demonstrate the inclusion of historical ethanol‐preserved museum specimens in modern sequence capture phylogenomic studies, show a high frequency of variant bases at the species and population levels, and from off‐target reads successfully recover multiple loci traditionally sequenced in multilocus studies including mitochondrial loci and nuclear rRNA loci. The methods detailed in this study will allow researchers to potentially acquire genetic data from millions of ethanol‐preserved museum specimens held in collections worldwide.     

A neotype and 2 topotypes for Bola chaptis Hamilton, 1822 (Pisces, Sciaenidae)

Hamilton (1822) described and figured Bola chaptis from the River Ganges, but left no type material. Trewavas & Talwar (1972, p. 11) have described a species that they believe identical with B. chaptis and placed it in the genus Bahaba Herre. Since their specimens came from Burma they did not propose a neotype from among them. During the course of a taxonomic study of the family Sciaenidae, 3 well-preserved specimens in the collections of the Zoological Survey of India were recognized by us as the same species. They were collected by the junior author at Chinsura in the Hooghly estuary during September 1954. This discovery supports the decision of Trewavas and Talwar to use Hamilton's name and after consultation with Dr Trewavas we have decided to select one of these specimens as neotype of Bahaba chaptis (Hamilton).     

The contribution of small collections to species distribution modelling: A case study from Fuireneae (Cyperaceae)

The recent and rapid digitization of biodiversity data from natural history collection (NHC) archives has enriched collections based data repositories; this data continues to inform studies of species' geographic distributions. Here we investigate the relative impact of plant data from small natural history collections (collections with < 100,000 specimens) on species distributional models in an effort to document the potential of data from small NHCs to contribute to and inform biodiversity research. We modelled suitable habitat of five test case species from Fuireneae (Cyperaceae) in the United States using specimen records available via the Global Biodiversity Information Facility and that of data ready to mobilize from two regional small herbaria. Data were partitioned into three datasets based on their source: 1) collections-based records from large NHCs accessed GBIF, 2) collections-based records from small NHCs accessed from GBIF, and 3) collections-based records from two small regional herbaria not yet mobilized to GBIF. We extracted and evaluated the ecological niche represented for each of the three datasets by applying dataset occurrences to 14 environmental factors, and we modelled habitat suitability using Maxent to compare the represented distribution of the environmental values among the datasets. Our analyses indicate that the data from small NHCs contributed unique information in both geographic and environmental space. When data from small collections were combined with data from large collections, species models of the ecological niche resulted in more refined predictions of habitat suitability, indicating that small collections can contribute unique occurrence data which enhance species distribution models by bridging geographic collection gaps and shifting modelled predictions of suitable habitat. Inclusion of specimen records from small collections in ongoing digitization efforts is essential for generating informed models of a species' niche and distribution.     

Museum epigenomics: Characterizing cytosine methylation in historic museum specimens

Museum genomics has transformed the field of collections‐based research, opening up a range of new research directions for paleontological specimens as well as natural history specimens collected over the past few centuries. Recent work demonstrates that it is possible to characterize epigenetic markers such as DNA methylation in well preserved ancient tissues. This approach has not yet been tested in traditionally prepared natural history specimens such as dried bones and skins, the most common specimen types in vertebrate collections. In this study, we developed and tested methods to characterize cytosine methylation in dried skulls up to 76 years old. Using a combination of ddRAD and bisulphite treatment, we characterized patterns of cytosine methylation in two species of deer mouse (Peromyscus spp.) collected in the same region in Michigan in 1940, 2003, and 2013–2016. We successfully estimated methylation in specimens of all age groups, although older specimens yielded less data and showed greater interindividual variation in data yield than newer specimens. Global methylation estimates were reduced in the oldest specimens (76 years old) relative to the newest specimens (1–3 years old), which may reflect post‐mortem hydrolytic deamination. Methylation was reduced in promoter regions relative to gene bodies and showed greater bimodality in autosomes relative to female X chromosomes, consistent with expectations for methylation in mammalian somatic cells. Our work demonstrates the utility of historic specimens for methylation analyses, as with genomic analyses; however, studies will need to accommodate the large variance in the quantity of data produced by older specimens.     

DNA Extraction Method Affects the Detection of a Fungal Pathogen in Formalin-Fixed Specimens Using qPCR

Museum collections provide indispensable repositories for obtaining information about the historical presence of disease in wildlife populations. The pathogenic amphibian chytrid fungus Batrachochytrium dendrobatidis (Bd) has played a significant role in global amphibian declines, and examining preserved specimens for Bd can improve our understanding of its emergence and spread. Quantitative PCR (qPCR) enables Bd detection with minimal disturbance to amphibian skin and is significantly more sensitive to detecting Bd than histology; therefore, developing effective qPCR methodologies for detecting Bd DNA in formalin-fixed specimens can provide an efficient and effective approach to examining historical Bd emergence and prevalence. Techniques for detecting Bd in museum specimens have not been evaluated for their effectiveness in control specimens that mimic the conditions of animals most likely to be encountered in museums, including those with low pathogen loads. We used American bullfrogs (Lithobates catesbeianus) of known infection status to evaluate the success of qPCR to detect Bd in formalin-fixed specimens after three years of ethanol storage. Our objectives were to compare the most commonly used DNA extraction method for Bd (PrepMan, PM) to Macherey-Nagel DNA FFPE (MN), test optimizations for Bd detection with PM, and provide recommendations for maximizing Bd detection. We found that successful detection is relatively high (80–90%) when Bd loads before formalin fixation are high, regardless of the extraction method used; however, at lower infection levels, detection probabilities were significantly reduced. The MN DNA extraction method increased Bd detection by as much as 50% at moderate infection levels. Our results indicate that, for animals characterized by lower pathogen loads (i.e., those most commonly encountered in museum collections), current methods may underestimate the proportion of Bd-infected amphibians. Those extracting DNA from archived museum specimens should ensure that the techniques they are using are known to provide high-quality throughput DNA for later analysis.     

Micro-computed tomography: Introducing?new?dimensions to taxonomy

Continuous improvements in the resolution of three-dimensional imaging have led to an increased application of these techniques in conventional taxonomic research in recent years. Coupled with an ever increasing research effort in cybertaxonomy, three-dimensional imaging could give a boost to the development of virtual specimen collections, allowing rapid and simultaneous access to accurate virtual representations of type material. This paper explores the potential of micro-computed tomography (X-ray micro-tomography), a non-destructive three-dimensional imaging technique based on mapping X-ray attenuation in the scanned object, for supporting research in systematics and taxonomy. The subsequent use of these data as virtual type material, so-called “cybertypes”, and the creation of virtual collections lie at the core of this potential. Sample preparation, image acquisition, data processing and presentation of results are demonstrated using polychaetes (bristle worms), a representative taxon of macro-invertebrates, as a study object. Effects of the technique on the morphological, anatomical and molecular identity of the specimens are investigated. The paper evaluates the results and discusses the potential and the limitations of the technique for creating cybertypes. It also discusses the challenges that the community might face to establish virtual collections. Potential future applications of three-dimensional information in taxonomic research are outlined, including an outlook to new ways of producing, disseminating and publishing taxonomic information.     

Molecular phylogenies and mating study data in Polyporus with special emphasis on group “Melanopus” (Basidiomycota)

“Melanopus” is an unranked infrageneric group within Polyporus, a genus comprising wood-decaying homobasidiomycetes. This study compiles new information on the mating systems, phylogeny, and geographic distribution of the group. We report tetrapolar mating systems in “Melanopus,” as well as in the more distantly related Polyporus umbellatus. “Melanopus” is addressed using internal transcribed spacer (ITS) rDNA sequence data, comparing resolving power of several phylogenetic methods and depths of sequence information, including recoded secondary structure data informed by the primary sequence data. The latter, inferred structure of the ITS2 rRNA was insufficient in phylogenetic reconstruction on its own. Intercollection compatibility studies showed Polyporus varius collections from both sides of the Atlantic to be intercompatible, the same was found for Polyporus tubaeformis collections from California and Scotland. Molecular analysis supports P. tubaeformis conspecifity of Scottish and Californian collections with a Norwegian collection. Several other herbarium specimens inaccessible to successful PCR and sequencing were redetermined as P. tubaeformis by morphological characters. This improved on the current knowledge of distribution of the species, tentatively adding Idaho, North Carolina, and Germany’s Mecklenburg-Western Pomerania.Electronic supplementary material Supplementary material is available in the online version of this article at and is accessible for authorized users.     

中国科学院华南植物园标本馆维管植物标本数据统计分析

为充分利用植物标本信息,从植物标本与物种信息系统数据库中对中国科学院华南植物园标本馆维管植物标本数据进行了统计和分析。结果表明,该馆馆藏标本统计时已录入696298号、716469份腊叶标本,分别隶属于354科5813属48707种(包含亚种、变种及变型),其中包括蕨类植物59科253属2105种(包含亚种、变种及变型)、裸子植物11科64属 557种(包含亚种、变种及变型)、被子植物284科5496属46045种(包含亚种、变种及变型)。标本分别采自中国33个省、自治区、直辖市、特别行政区以及其它107个国家或地区(98个国家,9个地区或岛屿);国内标本采自广东省的最多,国外标本采自美国的最多。其中模式标本6351号,隶属于194科938属4373种。还对标本馆今后的采集工作提出了建议。这些数据为科学研究提供了宝贵的数据资源。