Biodiversity Data Journal 9: e64461 OO) doi: 10.3897/BDJ.9.e64461 open access Data Paper Unlocking the Entomological Collection of the Natural History Museum of Maputo, Mozambique Domingos Sandramo?, Enrico Nicosia§, Silvio Cianciullo$, Bernardo Muatinte*, Almeida Guissamulo! + Department of Biological Sciences, Universidade Eduardo Mondlane, Maputo, Mozambique § Department of Environmental Biology, Sapienza - University of Rome, Rome, Italy | Natural History Museum of Maputo, Maputo, Mozambique Corresponding author: Domingos Sandramo (dasandramo@gmail.com) Academic editor: Shinichi Nakahara Received: 15 Feb 2021 | Accepted: 10 Apr 2021 | Published: 21 Apr 2021 Citation: Sandramo D, Nicosia E, Cianciullo S, Muatinte B, Guissamulo A (2021) Unlocking the Entomological Collection of the Natural History Museum of Maputo, Mozambique. Biodiversity Data Journal 9: e64461. https://doi.org/10.3897/BDJ.9.e64461 Abstract Background The collections of the Natural History Museum of Maputo have a crucial role in the safeguarding of Mozambique's biodiversity, representing an important repository of data and materials regarding the natural heritage of the country. In this paper, a dataset is described, based on the Museum’s Entomological Collection recording 409 species belonging to seven orders and 48 families. Each specimen’s available data, such as geographical coordinates and taxonomic information, have been digitised to build the dataset. The specimens included in the dataset were obtained between 1914-2018 by collectors and researchers from the Natural History Museum of Maputo (once known as “Museu Alvaro de Castro”) in all the country’s provinces, with the exception of Cabo Delgado Province. New information This paper adds data to the Biodiversity Network of Mozambique and the Global Biodiversity Information Facility, within the objectives of the SECOSUD II Project and the © Sandramo D et al. This is an open access article distributed under the terms of the Creative Commons Attribution License (CC BY 4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. 2 Sandramo D et al Biodiversity Information for Development Programme. The aforementioned insect dataset is available on the GBIF Engine data portal (https://doi.org/10.15468/j8ikhb). Data were also shared on the Mozambican national portal of biodiversity data BioNoMo (https://bionomo.openscidata.org), developed by SECOSUD II Project. Keywords Biodiversity, dataset, digitisation, entomology, insects, specimens Introduction More than 3000 insect species are estimated to be present in Mozambique (Ministerio da Terra, Ambiente e Desenvolvimento Rural 2015). However, the country’s entomological diversity is poorly documented. Despite the increasing research on insect diversity, there is poor dissemination of generated data and minimal usage of these scientific findings (Ministry for Coordination of Environmental Affairs 2014). Taking into account these shortcomings, the need to document and record the country’s entomological diversity emerges. In such a framework, the Entomological Collection of the Natural History Museum of Maputo (NHMM) could play a crucial role in documenting and disseminating data about Mozambican entomological diversity. The Natural History Museum Collections (NHMCs) are important repositories of biodiversity data and represent a fundamental system for providing references to describe the natural world (Alves et al. 2014). Conventionally, in museum collections, organisms are identified, catalogued and stored in a systematic order, representing an important and durable source of ancillary data (Sampaio et al. 2019). Moreover, they provide the source material that can be used for several biological studies (Monteiro et al. 2017) and their relevance is rapidly growing in understanding, using and protecting natural resources. Specimens in museum collections and the information available in related databases are used internationally for examining biodiversity changes related to habitat loss, climate change, biological invasions and for determining the threat status of species (Hamer 2012). Although the NHMCs preserve pivotal information on biodiversity, they are often difficult to access. The digitisation of museum collections can contribute to overcoming this limitation by allowing easier access to museum heritage and making data on global biodiversity available to researchers and policy-makers (Drew et al. 2017). With this intent, an efficient way to tackle the digitisation of the museums records is to divide collection data by distinct subsets, representing specific taxonomic compartments (Roy and Gagnon 2016). The NHMM houses a large zoological collection, which includes mammals, birds, reptiles, fishes, insects and other invertebrates (Natural History Museum of Maputo 2016a). The museum is part of the Eduardo Mondlane University of Maputo (UEM), both as a centre of scientific communication and as a hub for the development of biological research activities. Unlocking the Entomological Collection of the Natural History Museum of ... 3 Its mission is to preserve and promote Mozambique’s wildlife heritage, encourage scientific research on its fauna and ecosystems and, lastly, promote formal and_ informal environmental education, contributing to the sustainable use and management of the Country’s natural resources and ecosystems (Universidade Eduardo Mondlane 2015). Considering the poor documentation about Mozambican entomological diversity, the Entomological Collection of the NHMM created a dataset (hereafter called "the dataset") to encompass biodiversity data and to make this data available for the scientific community. The dataset records the primary biodiversity data, such as taxonomic classification, geographical coordinates of sampling site and date of collection of the specimens. A taxonomic review of the specimens was carried out and the collection sites for each occurrence were georeferenced using Google Earth 7.3 Software. The specimens of the entomological collection, included in the dataset, have been sampled in all the country’s provinces (excluding Cabo Delgado) between 1914 and 2018 by collectors and researchers from NHMM. The main contributions were made by Maria Corinta Ferreira and Gunderico da Veiga Ferreira, during their work as entomologists at the NHMM. With 176527 specimens, belonging to almost all insect orders found in the country, the Museum’s Entomological Collection is the largest specimen collection in Mozambique. It holds a pivotal value both at national and Afro-tropical Regional level (Natural History Museum of Maputo 2016b). Thus, by making the knowledge of Mozambique's entomological diversity accessible, the dataset produced by NHMM can support researchers and policy-makers in planning strategies to manage and conserve the entomological biodiversity and its related fauna and flora. The dataset has been developed in the framework of the SECOSUD I/ Project within the Biodiversity Network of Mozambique BioNoMo (htips://bionomo.openscidata.org/bionomo) initiative, which aims to provide a tool for national aggregation of biodiversity data (SECOSUD II Italian Cooperation Project 2017b). The dataset has also benefited from the contribution of the Biodiversity Information for Development (BID) Program for sharing primary biodiversity data on the Global Biodiversity Information Facility (https:/Awww.gbif.org/) portal through the project Mobilizing primary biodiversity data for Mozambican species of conservation concern (Global Biodiversity Information Facility Secretariat 2017). General description Purpose: Mobilisation of primary biodiversity data for Mozambique's entomofauna Additional information: The dataset is a subset of the Entomological Collection of the NHMM. The species included in the dataset were taxonomically reviewed. All dataset specimens were collected in Mozambique, during sampling expeditions conducted between 1914 and 2018, from 225 different localities. Approximately 93% of the specimens are georeferenced. The dataset includes taxonomic classification, locality name, sampling coordinates, catalogue number and collection date. 4 Sandramo D et al Project description Title: SECOSUD II - Conservation and equitable use of biological diversity in the SADC region: Biodiversity Network of Mozambique initiative and Mobilizing primary biodiversity data for Mozambican species of conservation concern. Study area description: The study area of the SECOSUD // Project encompasses the following countries belonging to the Southern African Development Community: Mozambique, Eswatini, South Africa and Zimbabwe. The project Mobilizing primary biodiversity data for Mozambican species of conservation concern was designed for Mozambique. Design description: The dataset was digitised in the framework of the BioNoMo initiative, as part of SECOSUD I/ Project and is one of the occurrence datasets published on GBIF through the project Mobilizing primary biodiversity data for Mozambican species of conservation concern, within the Biodiversity Information for Development Programme. The SECOSUD II Project aims to consolidate the capacities of decision-makers responsible for land planning and management of natural resources. This project also aims promote and support the harmonisation of land management processes at the national, regional and international level. The main objective of the SECOSUD I/ Project is to promote biodiversity conservation and sustainable economic development in the SADC (Southern African Development Community) region, consistent with the Convention on Biological Diversity (CBD) goals (SECOSUD II Italian Cooperation Project 2017a). Project activities include support for the development of a national platform for the collection, organisation and sharing of information on biological diversity. BioNoMo activities include initialising the database of primary biodiversity data in each partner institution to create a biodiversity information network, freely available on a deputed web portal. Such web portal provides: (i) the documentation on biodiversity at national level; (ii) data on primary biodiversity; and (iii) species data such as taxonomic lists and image archives. BioNoMo aims to be a tool for national aggregation of biological diversity data, making such data available to support the development of more effective strategies for biodiversity conservation. Therefore, it is a source of information which can support scientific research and national institutions in the reporting commitments related to international convention on biodiversity conservation, such as the Convention on Biological Diversity (SECOSUD II Italian Cooperation Project 2017b). SECOSUD I! works with research institutes involved in the management and conservation of biodiversity in the SADC region. The project works with some of the main collectors and suppliers of primary biodiversity data in the region, such as NHMM, UEM — Department of Biological Sciences, UEM — Centre of Biotechnology, Mozambican Institute for Agricultural Research, Mozambican Institute for Fishery Research, the Mozambican National Administration of Conservation Areas, Gorongosa National Park — E. O. Wilson Biodiversity Lab and Wildlife Conservation Society — Combo Project, South African National Biodiversity Institute, the University of Eswatini and the Eswatini National Trust Commission (SECOSUD II Italian Cooperation Project 201 7b). Unlocking the Entomological Collection of the Natural History Museum of ... 5 The project Mobilizing primary biodiversity data for Mozambican species of conservation concern aims to mobilise data on endemic and near-endemic species of plants, birds, reptiles, amphibians and fish (Biodiversity Information for Development 2019). The main objective is to increase the availability and use of biodiversity information, to support land- use decision-making (Global Biodiversity Information Facility Secretariat 2017) and biodiversity conservation strategy planning. Currently, more than 130000 occurrence records have been digitised (Biodiversity Information for Development 2019). The lead project institution in the country was the Instituto de Investigagao Agraria de Mogambique (IAMM), including several additional partners involved at national and international level. Moreover, in order to promote the exchange of taxonomic knowledge, a partnership with the South African National Biodiversity Institute (SANBI) has been developed, leading to the creation of a network of experts between both countries and to the consequent capacity building in Mozambique. Another partner, the Royal Botanic Gardens, Kew, provided additional training in IUCN Red Listing through its Tropical Important Plants Area initiative. Finally, through its BioNoMo initiative, SECOSUD // Project provided technical assistance to the data digitising activities and has made the digitised data available via the BioNoMo portal. In addition, other partners who allowed data publishing are: Entomoteca — Ministerio de Agricultura e Seguranga Alimentar (MASA), National History Museum of Maputo, Universidade Eduardo Mondlane, Institute for Fishery Research and South African Aquatic Biodiversity Institute (SAIAB) (Biodiversity Information for Development 2019). Funding: The Italian Agency for Development Cooperation funds SECOSUD II! Project. European Union and Global Biodiversity Information Facility funded Mobilizing primary biodiversity data for Mozambican species of conservation concern. Sampling methods Study extent: Sampling occurred in nine (9) provinces of the Country (Maputo, Gaza, Inhambane, Manica, Sofala, Tete, Zambezia, Nampula and Niassa). No records were collected in Cabo Delgado Province (Fig. 1). Sampling description: Samples from the Entomological Collection of NHMM were collected between 1914 and 2018 in 225 localities. The main contributor to the collection was Maria Corinta Ferreira Fontes de Melo Ferreira (1922-2003), during her work as resident entomologist at the NHMM and Gunderico da Veiga Ferreira, an entomologist for the Board of Geographical Missions and Colonial Research. In 1949, Maria Corinta Ferreira established a programme for collecting insects in the wood sawmills and forests of the Maputo Region. Consequently, the programme was extended (mainly in 1965 and 1973) to other southern provinces, with the intent of enriching and diversifying the museum’s entomological collection (Antunes 2016). In the most recent years, the collection was expanded through contributions from National Parks and Reserves; the majority of specimens was donated by Gorongosa National Park and the Maputo Special Reserve. Field expeditions, conducted by the NHMM, have also 6 Sandramo D et al led to an increase in the number of specimens, particularly in the Coleoptera and Lepidoptera orders. LEGEND 1) Provinces of Mozambique Number of Individuals 1 » 20 ® 60 @ 99 @ 233 @ 353 @ 455 @ 649 @ 1569 MONO ie Figure 1. EES Distribution map of specimens' occurrence sites. Quality control: The data quality control was supported by national and international entomology experts, which validated the taxonomic classification of specimens. Step description: In the framework of the BioNoMo initiative and the Mobilizing primary biodiversity data for Mozambican species of conservation concern project, assistants and staff of data provider institutions were trained on biodiversity database creation, digitisation and management. The dataset was developed through the digitisation of labels and field cards of the specimens in the Entomological Collection of NHMM. The data included in the dataset were cleaned with an exhaustive review of existing museum material. Such review was supported by entomology specialists from the Sapienza — University of Rome, by performing a taxonomic verification of each specimen collected. Specimens without a reliable taxonomic classification were not included in the dataset. Thus, a revision of the cataloguing records of the included specimens (such as catalogue number, collector, data, location of collection, storage and the status of maintenance of the specimens) was performed. In order to automatically update the dataset through an_ international biodiversity database, such as the Catalogue of Life (https://www.catalogueoflife.org/) and the Encyclopedia of Life (https://eol.org/), taxonomic classification was updated and validated using R Statistical Program version 3.4.2., which allowed us to compare our data with other entomological databases. Data were digitised through SPECIFY Version 7. Unlocking the Entomological Collection of the Natural History Museum of ... 7 Approximately 93% of specimens were georeferenced according to the guidelines of Chapman and Wieczorek (2020). Using the Georeferencing Calculator tool, the point- radius method was adopted as a practical solution for the georeferencing of descriptive localities. This method has been chosen to facilitate the management of uncertainties related to the georeferencing of the older samples (Wieczorek et al. 2004). In addition, maps and gazetteers were used to further refine the georeferencing of the sampling locations by providing coordinates and spatial boundaries for the sites described in the field card of each specimen. The geographic coordinates were determined using Google Maps. Decimals of geographic coordinates were based on the World Geodetic System 84 (WGS84) datum. The georeferencing process applied is consistent with the requirements of the Darwin Core standard on which the dataset has been built. The Darwin Core standard is an open access ensemble of rules and definitions to facilitate the digital sharing of information about biological diversity. Darwin Core is based mainly on the concept of taxa, their occurrence in nature, as documented by observations, specimens, samples and related information (Wieczorek et al. 2010). Geographic coverage Description: The dataset covers all Mozambique’s provinces, except Cabo Delgado. The specimens were collected in different provinces of Mozambique as follows: Maputo (3912), Tete (1507), Sofala (874), Inhambane (620), Gaza (214), Zambezia (94), Niassa (85), Manica (71) and Nampula (26) (Fig. 2). Georeferencing could not be carried out for 564 specimens. 3912 1507 874 | 620 214 94 85 71 26 c S v s Figure 2. EESl Number of insect specimens from each of Mozambique’s Provinces involved. 8 Sandramo D et al Taxonomic coverage Description: The dataset includes 7967 specimens from seven orders, 48 families and 409 species. Orthoptera is the most represented order (39% of the specimens), followed by Diptera (26%) and Lepidoptera (18%). The remaining part of the specimens belongs to the orders Blattodea, Odonata, Coleoptera and Mantodea, which account for 10%, 5%, 2% and 0.60% of the data, respectively (Fig. 3). 136 51 @ Diptera @ Orthoptera @ Lepidoptera GBlattodea G Odonata @ Coleoptera @ Mantodea Figure 3. EES Number of insect specimens per order presented in the dataset Taxa included: Rank Scientific Name kingdom Animalia phylum Arthropoda Class Insecta order Diptera family Bombyliidae family Calliphoridae family Conopidae family Glossinidae family Hippoboscidae family Muscidae family Sarcophagidae family Syrphidae Unlocking the Entomological Collection of the Natural History Museum of ... family Tabanidae order Orthoptera family Acrididae family Gryllidae family Gryllotalpidae family Pamphagidae family Pyrgomorphidae family Tetrigidae family Tettigoniidae order Lepidoptera family Arctiidae family Crambidae family Erebidae family Eupterotidae family Geometridae family Hesperiidae family Lasiocampidae family Limacodidae family Nymphalidae family Lymantriidae family Noctuidae family Notodontidae family Papilionidae family Pieridae family Saturniidae family Sphingidae order Blattodea family Blaberidae family Blattidae family Corydiidae family Ectobiidae 10 Sandramo D et al order Odonata family Aeshnidae family Chlorocyphidae family Coenagrionidae family Gomphidae family Lestidae family Libellulidae order Coleoptera family Carabidae family Cerambycidae order Mantodea family Empusidae family Mantidae family Tarachodidae Temporal coverage Notes: The temporal range of the records is between 1914 and 2018. The main years of data collection were 1949, 1965 and 1973, during which 1219, 878 and 811 specimens were recorded, respectively. Usage licence Usage licence: Creative Commons Public Domain Waiver (CC-Zero) Data resources Data package title: Coleccao Entomoldgica do Museu de Historia Natural de Maputo Resource link: The dataset is freely accessible on the GBIF Engine data portal (https://doi.org/10.15468/j8ikhb). Data were also shared on the national portal BioNoMo (https://bionomo.openscidata.org/bionomo/advsearch) developed by the SECOSUD Il Project. Number of data sets: 1 Data set name: Coleccao Entomoldogica do Museu de Historia Natural de Maputo Character set: UTF-8 Unlocking the Entomological Collection of the Natural History Museum of ... 11 Download URL: www.gbif.org/dataset/c61f14e7-95fd-4785-8d08-3ea6507c162e Data format: Darwin Core Archive format Data format version: 1.0 Description: The dataset Colecgao Entomoldogica do Museu de Historia Natural de Maputo (Sandramo and Chuquela 2020) is composed of 7967 specimens, belonging to seven orders, 48 families and 409 species. A total of 53 species listed in the dataset are Classified in the IUCN Red List of Threatened Species (International Union for Conservation of Nature 2020). Fifty species are in the “Least Concern” category, while the species Acisoma panorpoides (Clausnitzer et al. 2018), Amblyphymus adspersus (Hochkirch et al. 2018) and Empusa fasciata (Shcherbakov and Battiston 2020) are classified as “Endangered”, “Near Threatened” and “Data Deficient’, respectively. Column label Column description ID Identifier for the collection from which the record was derived Type The nature of the resource Language The language of the resource Institution Code The acronym used by the institution (Museu De Histéria Natural de Maputo) having custody the resource Collection Code The acronym identifying the collection or dataset from which the record was derived Dataset Name The name identifying the dataset Owner Institution Code Acronym used by the institution having ownership of the resource Basis of Record The specific nature of the data recorded Occurrence ID The identifier code of the occurrence Catalogue Number The identifier number for the record within the collection Recorded by Collectors or obervers responsible for recording the original occurrence Individual count The number of individuals occurring Sex The sex of individual occurring Life stage The age class of the individual occurring Occurrence status Presence or absence of the taxon in Mozambique Preparations Preparation and preservation method of the specimen Sampling protocol The description of the method used during the occurrence Event date The date of the occurrence Year The year of the occurrence Month The integer month of the occurrence 12 Day Habitat Continent Country Country code State or Province Locality Maximum elevation metres Georeference source Decimal latitude Longitude Geodetic datum Coordinate uncertainty metres Identified by Scientific name Taxonomic status Kingdom Phylum Class Order Family Genus Subgenus Specific epithet Infraspecific epithet Taxon rank Scientific name authorship Vernacular name Sandramo D et al The integer month's day of the occurrence Habitat's description of the occurrence The full name of the occurrence's continent The full name of the occurrence's country The standard code of the occurrence's country The country's administrative region (province) of the occurrence The specific location of the occurrence The altitude above sea level (in metres) of the occurrence The sources used to georeference the location The geographic latitude, expressed in decimal degrees, of the geographic centre of the location The geographic longitude, expressed in decimal degrees, of the geographic centre of the location The spacial reference system underlying the geographic coordinates The horizontal distance (in metres) from geographic coordinates describing the smallest circle containing occurrence's location The person who assigned the Taxon to the subject The scientific name (genus, specific epithet, authorship and date) of the specimen The status of the use of the reported scientific name The scientific name of the kingdom to which the specimen belongs The scientific name of the phylum to which the specimen belongs The scientific name of the class to which the specimen belongs The scientific name of the order to which the specimen belongs The scientific name of the family to which the specimen belongs The scientific name of the genus to which the specimen belongs The scientific name of the subgenus to which the specimen belongs The species epithet of the specimen's scientific name The terminal infraspecific epithet of the specimen's scientific name The taxonomic rank of the specimen The authorship information for the scientific name, according to the nomenclature code The common vernacular name Unlocking the Entomological Collection of the Natural History Museum of ... 13 Acknowledgements The authors would like to thank all contributors to this data paper, especially the Director and Curator of the Natural History Museum of Maputo, Dra. Lucilia Chuquela, who allowed access to the Entomological Collection. Special thanks to Prof. Fabio Attorre from the Department of Environmental Biology of the Sapienza - University of Rome for the scientific review and for the proofreading of the manuscript. Warm thanks to Luca Malatesta from the Sapienza - University of Rome and Stefano De Felici from University of Rome 2 - Tor Vergata, who administered the training activities as database experts. Our thanks to Mr. Manuel Manhique, Ms. Carla Pequenino, Mr. Alberto Peto and Mr. Boavida Mate from the Natural History Museum of Maputo, who supported the collection of the data. We also would like to thank Dra. Daniela de Abreu and the researchers from the Natural History Museum, who have helped to improve the manuscript with their comments. Lastly, we appreciate the work done by Delcio Odorico, Gerson Tomo and Celso Sardinha, from the SECOSUD II Project for mobilising primary biodiversity data though BioNoMo. The SECOSUD II Project has funded and technically and scientifically supported this study. This publication was made with the contribution of the Italian Agency for Development Cooperation. The contents of this publication are the exclusive responsibility of the authors and do not necessarily represent the point of view of the Agency. Author contributions Domingos Sandramo designed the research project and was the principal investigator. Enrico Nicosia and Silvio Cianciullo provided a general contribution to the drafting of this manuscript. Bernardo Muatinte provided scientific support for the taxonomic review and contribution to the drafting of this manuscript. Almeida Guissamulo was the supervisor of the activites. References ° Alves MJ, Bastos-Silveira C, Cartaxana A, Carvalho D, Catry T, Correia AM, Granadeiro JP, Lopes LF, Marques PAM, Mesquita N, Rebelo R (2014) As Colegdes Zooldgicas do Museu Nacional de Historia Natural e da Ciéncia. In: Alves MJ, Cartaxana A, Correia AM, Lopes LF (Eds) Professor Carlos Almaca (1934-2014) — Estado da Arte em Areas Cientificas do Seu Interesse. Museu Nacional de Historia Natural e da Ciéncia, Lisboa, 289-301 pp. ° Antunes LP (2016) Maria Corinta Ferreira (1922-20037), “Naturalist at the Museum Dr. Alvaro De Castro, Lourenco Marques [Now Maputo], Mozambique,” 1949-1974. Journal of History of Science and Technology 10: 103-124. https://doi.org/10.1515/ host-2016-0005 ° Biodiversity Information for Development (2019) Best practices for mobilizing policy- relevant data. Examples from sub-Saharan Africa, the Carribean and the Pacific. URL: https:/Awww.gbif.org/programme/82243/bid-biodiversity-information-for- development 14 Sandramo D et al Chapman AD, Wieczorek JR (2020) Georeferencing best practices [Community review draft]. Global Information Facility Secretariat. Copenhagen, 106 pp. URL: https://doi.org/ 10.15468/doc-gq7h-s853 Clausnitzer V, Suhling F, Dow R (2018) Acisoma panorpoides. The IUCN Red List of Threatened Species 2018: e.156259873A56260502. hitps://doi.org/10.2305/IUCN.UK. 2018-1.RLTS.156259873A56260502.en. Accessed on: 2020-11-25. Drew JA, Moreau CS, Stiassny MLJ (2017) Digitization of museum collections holds the potential to enhance researcher diversity. Nature Ecology & Evolution 1: 1789-1790. https://doi.org/10.1038/s41559-01 7-0401-6 Global Biodiversity Information Facility Secretariat (2017) Global Biodiversity Information Facility: Mobilizing primary biodiversity data for Mozambican species of conservation concern. https://www.gbif.org/project/6QF 1fq TDqOGkkkSuwkq024/ mobilizing-primary-biodiversity-data-for-mozambican-species-of-conservation-concern. Accessed on: 2020-11-18. Hamer M (2012) An assessment of zoological research collections in South Africa. South African Journal of Science 108: 71-82. URL: http://dx.doi.org/10.4102/ sajs.v108i11/12.1090 Hochkirch A, Bazelet C, Danielczak A (2018) Amblyphymus adspersus. The IUCN Red List of Threatened Species 2018: e.T116114418A116116545. httos://dx.doi.org/10.2305/ IUCN.UK.2018-1.RLTS.T116114418A116116545.en. Accessed on: 2020-11-25. International Union for Conservation of Nature (2020) The IUCN Red List of Threatened Species. https:/Awww.iucnredlist.org/resources/categories-and-criteria. Accessed on: 2020-11-25. Ministerio da Terra, Ambiente e Desenvolvimento Rural (2015) National strategy and action plan of biological diversity of Mozambique (2015-2035). MITADER. Maputo, 112 pp. URL: https:/(www.cbd.int/doc/world/mz/mz-nbsap-v3-en.pdf Ministry for Coordination of Environmental Affairs (2014) Fifth National Report on the implementation of convention on biological diversity in Mozambique. MICOA. Maputo, 129 pp. URL: https:/Awww.cbd.int/doc/world/mz/mz-nr-05-en.pdf Monteiro M, Figueira R, Melo M, Mills MSL, Beja P, Bastos-Silveira C, Ramos M, Rodrigues D, Neves IQ, Consciéncia S, Reino L (2017) The collection of birds from Mozambique at the Istituto de Investigagao Cientifica Tropical of the University of Lisbon (Portugal). ZooKeys 708: 139-152. https://doi.org/10.3897/zookeys.708.13351 Natural History Museum of Maputo (2016a) Museu de Historia Natural: Investigacgao. Colecoes. http://mhnm.uem.mz/investigacao/coleccoes. Accessed on: 2020-11-16. Natural History Museum of Maputo (2016b) Museu de Historia Natural: Sobre Nos. O Museu. http://mhnm.uem.mz/sobre-nos/historial. Accessed on: 2020-11-16. Roy V, Gagnon J-M (2016) Natural history museum data on Canadian Arctic marine benthos. Marine Biodiversity 48: 1357-1367. httos://doi.org/10.1007/s12526-016-0610-2 Sampaio |, Carreiro-Silva M, Freiwald A, Menezes G, Grasshoff M (2019) Natural history collections as a basis for sound biodiversity assessments: Plexauridae (Octocorallia, Holaxonia) of the Naturalis CANCAP and Tyro Mauritania II expeditions. ZooKeys 870: 1-32. https://doi.org/10.3897/zookeys.870.35285 Sandramo D, Chuquela L (2020) Colecgao Entomologica do Museu de Historia Natural de Maputo. 1.17. Eduardo Mondlane University Natural History Museum. URL: https://doi.org/10.15468/j8ikhb Unlocking the Entomological Collection of the Natural History Museum of ... 15 SECOSUD II Italian Cooperation Project (2017a) SECOSUD II Italian Cooperation Project: Project activities. Digitization and sharing of primary biodiversity data. http://www.secosud2project.com/the-5-components/biodiversity-network-of- mozambique/. Accessed on: 2020-11-18. SECOSUD II Italian Cooperation Project (2017b) SECOSUD II Italian Cooperation Project: Home. htip://www.secosud2project.com/. Accessed on: 2020-11-18. Shcherbakov E, Battiston R (2020) Empusa fasciata. The IUCN Red List of Threatened Species 2020: e.T44790994A44798452. hittps://dx.doi.org/10.2305/IUCN.UK. 2020-2.RLTS.T44790994A44798452.en. Accessed on: 2020-11-25. Universidade Eduardo Mondlane (2015) Relatorio de atividades e financeiro de 2014. Universidade Eduardo Mondlane. Maputo, 280 pp. Wieczorek J, Guo Q, Hijmans R (2004) The point-radius method for georeferencing locality descriptions and calculating associated uncertainty. International Journal of Geographical Information Science 18: 745-767. https://doi.org/10.1080/136588 10412331280211 Wieczorek J, Giovanni RD, Vieglais D, Remsen DP, Doring M, Robertson T (2010) Darwin Core quick reference guide, version 1.3, released on 10 Mar 2012. Global Biodiversity Information Facility. Copenhagen, 41 p.