2017 Sourcebook Review Science Science An annual compilation of compilation An annual research by data uses enabled 2
About the Science Review Sourcebook 2017
Each year, the GBIF Science Review highlights research uses of primary biodiversity data accessed through the GBIF network global infrastructure. Citations of GBIF-mediated data continue to grow and now average more than one substantive example each day. In view of the corresponding growth in the number of pages of the Science Review, the narrative highlights remain separated from the full annual bibliographic table of citations, which includes more than 400 individual articles. This sourcebook is an electronic companion volume to the printed GBIF Science Review 2017 (also available electronically) which includes summaries of selected examples of research using GBIF as a data source, as well as analysis of trends and geographic location of research teams. Articles summarized in the Science Review are marked in bold in the following tables, and the symbol ‘ꇷ’ indicates open-access articles that are available to all readers with or without a journal subscription. 3
CONTENTS Biodiversity and human health ...... 4 Data management & Data papers ...... 5 Food and farming...... 6 Impacts of climate change ...... 7 Invasive alien species ...... 8 Species conservation and protected areas ...... 11 Advancing biodiversity science (includes Evolution and biogeopgraphy) ...... 13 4
biodiversity and human health AUTHORS TITLE JOURNAL DOI/URL AUTHOR COUNTRIES Alimi TO et al. A multi-criteria decision analysis approach to BMC Public Health https://doi.org/10.1186/ United States, Colombia ꇷ assessing malaria risk in northern South America s12889-016-2902-7 Baruah D & Neog B Botanical , Phytochemical and Pharmacological International Journal http://bit.ly/2ugUnRE India Review of Flacourtia Jangomas (Lour.) Raeusch of Current Medical and Pharmaceutical Research Cao B et al. Modeling habitat distribution of Cornus ofcinalis Journal of Plant Ecology https://doi.org/10.1093/ China with Maxent modeling and fuzzy logics in China jpe/rtw009 Carlson CJ et al. An Ecological Assessment of the PLoS Neglected Tropical https://doi.org/10.1371/ United States, ꇷ Pandemic Threat of Zika Virus Diseases 10(8) journal.pntd.0004968 South Africa Escobar LE et al. Forecasting Chikungunya spread in the Americas Parasites & Vectors 9:112 https://doi.org/10.1186/ United States, China ꇷ via data-driven empirical approaches s13071-016-1403-y Estrada-Peña A & Species interactions in occurrence data for a Scientifc Data 3:160056 https://doi.org/10.1038/ Spain, United States ꇷ de la Fuente J community of tick-transmitted pathogens sdata.2016.56 Giovannini P et al. Medicinal plants used in the traditional management of Journal of https://doi.org/10.1016/j. United Kingdom diabetes and its sequelae in Central America: A review Ethnopharmacology jep.2016.02.034 184: 58-71 Hutter SE et al. Rabies in Costa Rica: Documentation of the Surveillance Vector-Borne and https://doi.org/10.1089/ Austria, Costa Rica Program and the Endemic Situation from 1985 to 2014 Zoonotic Diseases vbz.2015.1906. Ke Z et al. Drug discovery of neurodegenerative disease through Biomedicine & https://doi.org/10.1016/j. China network pharmacology approach in herbs Pharmacotherapy biopha.2016.01.021 78: 272-279 Martin GA et al. Climatic suitability influences species specific One Health 2: 115-121 https://doi.org/10.1016/j. Australia, Mexico, ꇷ abundance patterns of Australian flying onehlt.2016.07.004 United States foxes and risk of Hendra virus spillover Moyes CL et al. Predicting the geographical distributions of the Parasites & Vectors https://doi.org/10.1186/ United Kingdom, macaque hosts and mosquito vectors of Plasmodium s13071-016-1527-0 Malaysia, Canada, knowlesi malaria in forested and non-forested areas Thailand, Singapore, ꇷ Japan, Kenya, Australia, United States, Indonesia Pech-May A et al. Assessing the importance of four sandfy Medical and Veterinary https://doi.org/10.1111/ Argentina, Mexico species (Diptera: Psychodidae) as vectors of Entomology mve.12169 Leishmania mexicana in Campeche, Mexico Piedrahita-Cortés J Geographical distribution of the red howler monkey Biomedica 36(0): 116-21 https://doi.org/10.7705/ Colombia & Soler-Tovar D (Alouatta seniculus) and yellow fever in Colombia biomedica.v36i0.2929 Pigott DM et al. Updates to the zoonotic niche map of eLife 5:e16412 https://doi.org/10.7554/ United Kingdom, United ꇷ Ebola virus disease in Africa eLife.16412 States, Australia Redding DW et al. Environmental-mechanistic modelling of the Methods in Ecology and https://doi. United Kingdom, ꇷ impact of global change on human zoonotic disease Evolution, 7: 646–655 org/10.1111/2041- United States emergence: a case study of Lassa fever 210X.12549 Rivera D et al. Is there nothing new under the sun? The Journal of https://doi.org/10.1016/j. Spain, Italy infuence of herbals and pharmacopoeias on Ethnopharmacology jep.2016.11.040 ethnobotanical traditions in Albacete (Spain) Samy AM et al. Climate Change Infuences on the Global Potential PLoS ONE 11(10) https://doi.org/10.1371/ Sudan, Egypt, Brazil, ꇷ Distribution of the Mosquito Culex quinquefasciatus, journal.pone.0163863 United States Vector of West Nile Virus and Lymphatic Filariasis Stephens CR et al. Can You Judge a Disease Host by the Company It PLoS Neglected Tropical https://doi.org/10.1371/ Mexico ꇷ Keeps? Predicting Disease Hosts and Their Relative Diseases 10(10): e0005004 journal.pntd.0005004 Importance: A Case Study for Leishmaniasis Wansi JD et al. Phytochemistry and pharmacology of Journal of https://doi.org/10.1016/j. Cameroon, United the genus Drypetes: A review Ethnopharmacology jep.2016.06.060 Kingdom, Germany Yi Y-J et al. Maxent modeling for predicting the potential Ecological Engineering https://doi.org/10.1016/j. China distribution of endangered medicinal plant 92: 260-269 ecoleng.2016.04.010 (H. riparia Lour) in Yunnan, China Zhang L et al. Predicting suitable cultivation regions of medicinal Environmental Earth https://doi.org/10.1007/ China plants with Maxent modeling and fuzzy logics: a Sciences 75:361 s12665-015-5133-9 case study of Scutellaria baicalensis in China 5
data management & data papers AUTHORS TITLE JOURNAL DOI/URL AUTHOR COUNTRIES
Alexander NS et al. The European Distribution of Sus Scrofa. Model Outputs Journal of open health data 4 https://doi. United Kingdom ꇷ from the Project Described within the Poster – Where are All org/10.5334/ohd.24 the Boars? An Attempt to Gain a Continental Perspective Asase A & Peterson AT Completeness of Digital Accessible Biodiversity Informatics https://doi.org/10.17161/ Ghana, United States Knowledge of the Plants of Ghana bi.v11i0.5860 Barve V & Otegui J bdvis: visualizing biodiversity data in R Bioinformatics https://doi.org/10.1093/ United States bioinformatics/btw333 Becker D et al. A Plugin to Interface Openmodeller from QGIS for ISPRS Annals of teh https://doi.org/10.5194/ Germany Species' Potential Distribution Modelling Photogrammetry, Remote isprs-annals- Sensing and Spatial III-7-251-2016 Information Sciences 3(7) Dikow T & Agosti D Utilizing online resources for taxonomy: a cybercatalog of Biodiversity Data https://doi.org/10.3897/ United States, ꇷ Afrotropical apiocerid flies (Insecta: Diptera: Apioceridae) Journal 3: e5707 BDJ.3.e5707 Switzerland Droege G et al. The Global Genome Biodiversity Network Database https://doi.org/10.1093/ Germany, United (GGBN) Data Standard specification database/baw125 Staes, Denmark, ꇷ United Kingdom, Australia, Italy Franklin J et al. Big data for forecasting the impacts of Global Ecology and https://doi.org/ United States global change on plant communities Biogeography 10.1111/geb.12501 Gattolliat J-L et al. Toward a comprehensive COI DNA barcode library Zoosymposia 11: 135–155 https://doi.org/10.11646/ Switzerland ꇷ for Swiss Stoneflies (Insecta: Plecoptera) with zoosymposia.11.1.15 special emphasis on the genus Leuctra Gilles D et al. RAINBIO: a mega-database of tropical PhytoKeys 74: 1-18 https://doi.org/10.3897/ France, Portugal, African vascular plants distributions phytokeys.74.9723 Denmark, Netherlands, ꇷ Belgium, United Kingdom, United States, Germany Ivanova NV & Shashkov MP Biodiversity Databases in Russia: Towards a National Portal Arctic Science https://doi.org/10.1139/ Russian Federation AS-2016-0050 Kirchner AC & Aden C HotSpotSDM - ein WPS-Prozess für die AGIT - Journal für https://doi. Germany Modellierung ökologischer Artenfunde Angewandte Geoinformatik org/10.14627/537622077 Michonneau F et al. rotl: an R package to interact with the Open Tree of Life data Methods in Ecology https://doi. United States and Evolution org/10.1111/2041- 210X.12593 Rambold G et al. Geographic heat maps of lichen traits derived Biodiversity & Conservation https://doi.org/10.1007/ Germany, United States by combining LIAS light description and GBIF s10531-016-1199-2 occurrence data, provided on a new platform Rekadwad BN & Digital data for quick response (QR) codes of Data in Brief 7: 1306-1313 https://doi.org/10.1016/j. India ꇷ Khobragade CN alkalophilic Bacillus pumilus to identify and to compare dib.2016.03.103 bacilli isolated from Lonar Crator Lake, India Thessen AE et al. Emerging semantics to link phenotype and environment PeerJ 3:e1470 https://doi.org/10.7717/ United States, ꇷ peerj.1470 Germany, Argentina, Netherlands Ytow N Taxonaut: an application software for comparative display Biodiversity Data https://doi.org/10.3897/ Japan ꇷ of multiple taxonomies with a use case of GBIF Species API Journal 4: e9787 BDJ.4.e9787 6
food & farming AUTHORS TITLE JOURNAL DOI/URL AUTHOR COUNTRIES Bosch J et al. A Cartographic Tool for Managing African Swine Transboundary and https://doi.org/10.1111/ Spain Fever in Eurasia: Mapping Wild Boar Distribution Emerging Diseases tbed.12559 Based on the Quality of Available Habitats. Bunn C et al. Multiclass Classification of Agro-Ecological Zones PLoS ONE 10(10): e0140490 https://doi.org/10.1371/ Colombia, Nicaragua, ꇷ for Arabica Cofee: An Improved Understanding journal.pone.0140490 United States of the Impacts of Climate Change Bush MB et al. A 6900-year history of landscape modification Quaternary Science https://doi.org/10.1016/j. United States, Mexico, by humans in lowland Amazonia Reviews 141: 52-64 quascirev.2016.03.022 Netherlands Castañeda-Álvarez NP et al. Global conservation priorities for crop wild relatives Nature Plants 2 https://doi.org/10.1038/ Colombia, United nplants.2016.22 Kingdom, Netherlands, Germany da Silva RS et al. Potential risk levels of invasive Neoleucinodes Pest Management Science https://doi.org/10.1002/ Brazil, Australia elegantalis (small tomato borer) in areas optimal for ps.4344 open field Solanum lycopersicum (tomato) cultivation in the present and under predicted climate change Delgado-Baquerizo M et al. Biogeographic bases for a shift in crop C : N : P Ecology Letters https://doi.org/10.1111/ Australia, United stoichiometries during domestication ele.12593 States, Spain Dunne JA et al. The roles and impacts of human hunter- Scientifc Reports 6: 21179 https://doi.org/10.1038/ United States, Canada ꇷ gatherers in North Pacifc marine food webs srep21179 Dupin J et al. Bayesian estimation of the global Journal of Biogeography https://doi.org/10.1111/ United States, biogeographical history of the Solanaceae jbi.12898 Australia, United Kingdom Galluzzi G et al. An Integrated Hypothesis on the PLoS ONE 10(12): e0144644 https://doi.org/10.1371/ Colombia, Costa Rica ꇷ Domestication of Bactris gasipaes journal.pone.0144644 Halouani G et al. Modelling food web structure using an end-to-end approach Ecological Modelling 45:57 https://doi.org/10.1016/j. Tunisia, France, in the coastal ecosystem of the Gulf of Gabes (Tunisia) ecolmodel.2016.08.008 South Africa, Peru Kaur G & Sangha KS Diversity of arthropod fauna associated with Journal of Entomology http://bit.ly/2uh30M7 India chilli (Capsicum annuum L.) in Punjab and Zoology Studies 4(5): 390-396 López-Martínez V et al. Current and Potential Distribution of the Cactus The Coleopterists Bulletin https://doi. Mexico Weevil, Cactophagus spinolae (Gyllenhal) 70 (2): 327-334 org/10.1649/0010- (Coleoptera: Curculionidae), in Mexico 065X-70.2.327 Osawa T et al. Trade-of relationship between modern agriculture and Land Use Policy 54: 78-84 https://doi.org/10.1016/j. Japan biodiversity: Heavy consolidation work has a long- landusepol.2016.02.001 term negative impact on plant species diversity Plath M et al. A novel bioenergy feedstock in Latin America? Biomass and Bioenergy https://doi.org/10.1016/j. Germany, United Cultivation potential of Acrocomia aculeata 9: 186-195 biombioe.2016.04.009 States, Kenya, under current and future climate conditions Netherlands Samy AM & Peterson AT Climate Change Infuences on the Global PLoS ONE 11(3): e0150489 https://doi.org/10.1371/ United States, Egypt ꇷ Potential Distribution of Bluetongue Virus journal.pone.0150489 ꇷ Sanyal A & Decocq G Adaptive evolution of seed oil content in angiosperms: BMC Evolutionary https://doi.org/10.1186/ France, Sweden accounting for the global patterns of seed oils Biology 16: 187 s12862-016-0752-7 Shaik RS et al. The biology and management of prickly paddy Crop Protection 92: 29-40 https://doi.org/10.1016/j. Australia melon (Cucumis myriocarpus L.), an important cropro.2016.10.005 summer annual weed in Australia Syfert MM et al. Crop wild relatives of the brinjal eggplant (Solanum American Journal of https://doi.org/10.3732/ United Kingdom, ꇷ melongena): Poorly represented in genebanks Botany 103 (10) ajb.1500539 Netherlands, Colombia, and many species at risk of extinction Spain, France Thomas E et al. An assessment of the conservation status Chapter XX in Enhancing http://bit.ly/2uhvjdo Colombia, Costa Rica of Mesoamerican crop species and their wild Crop Genepool Use: relatives in light of climate change Capturing Wild Relative and Landrace Diversity for Crop Improvement 7
impacts of climate change AUTHORS TITLE JOURNAL DOI/URL AUTHOR COUNTRIES
Aljaryian R & Kumar L Changing global risk of invading greenbug Crop Protection 88: 137-148 https://doi.org/10.1016/j. Australia Schizaphis graminum under climate change cropro.2016.06.008
Biber-Freudenberger L et al. Future Risks of Pest Species under PLoS ONE 11(4): e0153237 https://doi.org/10.1371/ Germany, Kenya ꇷ Changing Climatic Conditions journal.pone.0153237 de Oliveira IS et al. Assessing future habitat availability for coastal Studies on Neotropical Fauna https://doi.org/10.1080/0 Brazil, Germany, lowland anurans in the Brazilian Atlantic rainforest and Environment 51(1): 45-55 1650521.2016.1160610 Portugal, Iran Dotchamou FT et al. Density and spatial distribution of Parkia biglobosa Journal of Agriculture https://doi.org/10.12895/ Benin pattern in Benin under climate change and Envornment for jaeid.20161.447 ꇷ international Development 110 (1): 173-194 Dufy GA & Chown SL Urban warming favours C4 plants in Journal of Ecology https://doi. Australia temperate European cities org/10.1111/1365- 2745.12652 Feldman RE et al. Climate driven range divergence among host species Global Ecology and https://doi.org/10.1016/j. Mexico, United ꇷ afects range-wide patterns of parasitism Conservation 9: 1-10 gecco.2016.10.001 States, Canada Frishkof LO et al. Climate change and habitat conversion Ecology Letters https://doi.org/10.1111/ United States, Canada, favour the same species ele.12645 United Kingdom, Costa Rica, Sweden García-Martínez YG et al. Traditional Agroecosystems and Global Bulgarian Journal of http://bit.ly/2uhmT5w Mexico Change Implications in Mexico Agricultural Science 22(4): 548-565 González-Santos R et al. Prediction of the efects of climate change on Sechium Genetic Resources https://doi.org/10.1007/ Mexico edule (Jacq.) Swartz varietal groups in Mexico and Crop Evolution s10722-016-0401-4 Graham CH et al. Winter conditions influence biological Ecosphere 7(10) https://doi.org/10.1002/ United States ꇷ responses of migrating hummingbirds ecs2.1470 Hannah L et al. Climate change influences on pollinator, forest, and Climatic Change https://doi.org/10.1007/ United States, ꇷ farm interactions across a climate gradient s10584-016-1868-x Costa Rica Hargrave MS et al. The efects of warming on the ecophysiology of two Oecologia https://doi.org/10.1007/ United Kingdom co-existing kelp species with contrasting distributions s00442-016-3776-1 Harsch MA & Climate Warming and Seasonal Precipitation PLoS ONE 11(7): e0159184 https://doi.org/10.1371/ United States ꇷ HilleRisLambers J Change Interact to Limit Species Distribution journal.pone.0159184 Shifts across Western North America Hattab T et al. Forecasting fne-scale changes in the food-web structure Ecography https://doi.org/10.1111/ France, Tunisia, Canada of coastal marine communities under climate change ecog.01937 Hof AR et al. Vulnerability of subarctic and arctic breeding birds Ecological Applications https://doi.org/10.1002/ Sweden, United States eap.1434 Ikeda DH et al. Genetically informed ecological niche models Global Change Biology https://doi.org/10.1111/ United States improve climate change predictions gcb.13470 Iloh AC & Ogundipe OT Using ecological niche models to plan conservation in a Journal of Ecology https://doi.org/10.5897/ Nigeria ꇷ changing environment: A case for the plant Chasmanthera and The Natural JENE2015.0525 dependens Hochst (Menispermaceae) in West Africa Environment 8(1): 1-8 Jiang H et al. Predicting the Potential Distribution of Polygala PLoS ONE 11(9): e0163718 https://doi.org/10.1371/ China ꇷ tenuifolia Willd. under Climate Change in China journal.pone.0163718 Moutouama JK et al. Potential climate change favored expansion of a range Journal of Agriculture https://doi.org/10.12895/ Benin ꇷ limited species, Haematostaphis barteri Hook f. and Environment for jaeid.2016110.516 International Development Müller L-LB et al. “Are 3°C too much?” – Thermal niche breadth Journal of Ecology https://doi. Germany, Panama in Bromeliaceae and global warming org/10.1111/1365- 2745.12681 Munson SM & Long AL Climate drives shifts in grass reproductive New Phytologist https://doi.org/10.1111/ United States phenology across the western USA nph.14327
Pranovi F et al. The Infuence of the Spatial Scale on the Frontiers in Marine https://doi.org/10.3389/ Italy ꇷ Fishery Landings-SST Relationship Science 3:143 fmars.2016.00143
Saeedi H et al. Modelling present and future global distributions Helgoland Marine https://doi.org/10.1186/ New Zealand ꇷ of razor clams (Bivalvia: Solenidae) Research 70:23 s10152-016-0477-4
Sántiz EC et al. Efect of climate change on the distribution Therya https://doi.org/10.12933/ Mexico of a critically threatened species therya-16-358 8
impacts of climate change AUTHORS TITLE JOURNAL DOI/URL AUTHOR COUNTRIES
Schleuning M et al. Ecological networks are more sensitive to plant Nature Communications 7 https://doi.org/10.1038/ Germany, Canada, than to animal extinction under climate change ncomms13965 Poland, Switzerland, ꇷ New Zealand, United Kingdom, Belgium, Serbia, Australia Stuart-Smith J et al. Southernmost records of two Seriola species Marine Biodiversity https://doi.org/10.1007/ Australia, United States in an Australian ocean-warming hotspot s12526-016-0580-4
Taylor S & Kumar L Will climate change impact the potential distribution Ecology and Evolution https://doi.org/10.1002/ Australia ꇷ of a native vine (Merremia peltata) which is ece3.1915 behaving invasively in the Pacific region? Wauchope HS et al. Rapid climate-driven loss of breeding Global Change Biology https://doi.org/10.1111/ Australia, Norway, habitat for Arctic migratory birds gcb.13404 Russian Federation, Denmark, United States Zhang J et al. Extinction risk of North American seed plants Journal of Applied Ecology https://doi. Canada, France, elevated by climate and land-use change org/10.1111/1365- Denmark 2664.12701 invasive alien species AUTHORS TITLE JOURNAL DOI/URL AUTHOR COUNTRIES
Geerts S et al. Lack of human-assisted dispersal means Biological Invasions https://doi.org/10.1007/ South Africa Pueraria montana var. lobata (kudzu vine) s10530-016-1226-y could still be eradicated from South Africa Silva DP et al. Contextualized niche shifts upon independent Biological Invasions https://doi.org/10.1007/ Brazil, Spain, Australia, invasions by the dung beetle Onthophagus taurus s10530-016-1204-4 United States
Acosta AL et al. Worldwide Alien Invasion: A Methodological PLoS ONE 11(2): e0148295 https://doi.org/10.1371/ Brazil ꇷ Approach to Forecast the Potential Spread journal.pone.0148295 of a Highly Invasive Pollinator Allen JM & Bradley BA Out of the weeds? Reduced plant invasion risk with Biological Conservation https://doi.org/10.1016/j. United States climate change in the continental United States 203: 306-312 biocon.2016.09.015 Attias N et al. Acácias Australianas no Brasil: Histórico, Biodiversidade Brasileira http://bit.ly/2uh3i5F Brazil Formas de Uso e Potencial de Invasão 3(2): 74-96 Barbosa FG The future of invasive African grasses in Ecological Informatics https://doi.org/10.1016/j. Brazil South America under climate change 36: 114-117 ecoinf.2016.10.006 Bellard C et al. Global patterns in threats to vertebrates Proceedings of the Royal https://doi.org/10.1098/ France, Italy, Germany by biological invasions Society B 283 (1823) rspb.2015.2454 Bellard C et al. Major drivers of invasion risks throughout the world Ecosphere 7(3):e01241 https://doi.org/10.1002/ France, United Kingdom ꇷ ecs2.1241 Branquart E et al. A prioritization process for invasive alien EPPO Bulletin https://doi.org/10.1111/ Belgium, Italy, plant species incorporating the requirements epp.12336 Switzerland, United of EU Regulation no. 1143/2014 Kingdom, France, Germany, Netherlands Brown KA et al. Modeling co-occurrence between toxic prey and Biodiversity and Conservation https://doi.org/10.1007/ United Kingdom, naïve predators in an incipient invasion s10531-016-1198-3 United States, Madagascar, Canada Canavan S et al. The global distribution of bamboos: assessing AOB Plants https://doi.org/10.1093/ South Africa, ꇷ correlates of introduction and invasion aobpla/plw078 United Kingdom Cardador L et al. Combining trade data and niche modelling improves Journal of Biogeography https://doi.org/10.1111/ Spain predictions of the origin and distribution of non-native jbi.12694 European populations of a globally invasive species Chai S-L et al. Using Risk Assessment and Habitat Suitability PLoS ONE 11(10) https://doi.org/10.1371/ Canada ꇷ Models to Prioritise Invasive Species for journal.pone.0165292 Management in a Changing Climate Cheek MD & Semple JC First ofcial record of naturalised populations South African Journal of https://doi.org/10.1016/j. South Africa, Canada of Solidago altissima L. var. pluricephala M.C. Botany 105: 333-336 sajb.2016.05.00 Johnst. (Asteraceae: Astereae) in Africa Cindi DD & Jaca TP First record of Opuntia pubescens H.L.Wendland BioInvasions Records https://doi.org/10.3391/ South Africa ꇷ ex Pfeifer, 1835 naturalised in South Africa 5(4): 213-219 bir.2016.5.4.04 Creed JC et al. The invasion of the azooxanthellate coral Tubastraea Biological Invasions https://doi.org/10.1007/ Brazil, United States (Scleractinia: Dendrophylliidae) throughout s10530-016-1279-y the world: history, pathways and vectors 9
invasive alien species AUTHORS TITLE JOURNAL DOI/URL AUTHOR COUNTRIES
Čuda J et al. Juvenile biological traits of Impatiens species Perspectives in Plant https://doi.org/10.1016/j. Czech Republic are more strongly associated with naturalization Ecology, Evolution and ppees.2016.02.007 in temperate climate than their adult traits Systematics 20: 1-10 da Silva RS et al. Potential risk levels of invasive Neoleucinodes Pest Management Science https://doi.org/10.1002/ Brazil, Australia elegantalis (small tomato borer) in areas optimal for ps.4344 open-field Solanum lycopersicum (tomato) cultivation in the present and under predicted climate change Di Febbraro M et al. Modelling the efects of climate change on Hystrix, the Italian Journal https://doi.org/10.4404/ Italy ꇷ the risk of invasion by alien squirrels of Mammalogy 27 (1) hystrix-27.1-11776 Dullinger I et al. Climate change will increase the naturalization Global Ecology and https://doi.org/10.1111/ Austria, Germany, ꇷ risk from garden plants in Europe Biogeography geb.12512 United Kingdom, Czech Republic, France Escobar LE et al. Realized niche shift associated with the Eurasian charophyte Scientific Reports 6 https://doi.org/10.1038/ United States, China ꇷ Nitellopsis obtusa becoming invasive in North America srep29037 Figueroa-Castro P et al. First Report of Peltophorus adustus (Fall) The Coleopterists Bulletin https://doi. Mexico (Coleoptera: Curculionidae: Baridinae) in 70 (3): 667-670 org/10.1649/0010- Mexico, with Two New Host Associations 065X-70.3.667 Fltecher DH et al. Predicting global invasion risks: a management Scientific Reports 6 https://doi.org/10.1038/ United Kingdom, France ꇷ tool to prevent future introductions srep26316 Forsyth RG et al. Distributional Status of an Introduced Land Snail Discus The Canadian Field-Naturalist https://doi.org/10.22621/ Canada, Republic ꇷ rotundatus (Rotund Disc, Mollusca: Discidae) in Canada 130(3): 236-247 cfn.v130i3.1887 of Korea Fried G et al. MONOGRAPHS ON INVASIVE PLANTS IN EUROPE Botany Letters https://doi.org/10.1080/2 France, Spain, NO. 1 Monographs on Invasive Plants in 3818107.2016.1168315 Germany, Australia Europe: Baccharis halimifolia L. Gallien L et al. Is There Any Evidence for Rapid, Genetically-Based, Climatic PLoS ONE 11(4): e0152867 https://doi.org/10.1371/ France ꇷ Niche Expansion in the Invasive Common Ragweed? journal.pone.0152867 Godefroid M et al. Is phylogeography helpful for invasive species Ecography https://doi.org/10.1111/ France risk assessment? The case study of the ecog.01474 bark beetle genus Dendroctonus? Harris RMB et al. Unusual suspects in the usual places: a phylo-climatic Biological Invasions https://doi.org/10.1007/ Australia framework to identify potential future invasive species s10530-016-1334-8 Hernández-Lambraño Towards the top: niche expansion of Taraxacum ofcinale Austral Ecology https://doi.org/10.1111/ Spain, United Kingdom RE et al. and Ulex europaeus in mountain regions of South America aec.12476 Horvitz N et al. Pervasive human-mediated large-scale invasion: Journal of Ecology https://doi. China, Israel analysis of spread patterns and their underlying 105: 85–94 org/10.1111/1365- mechanisms in 17 of China's worst invasive plants 2745.12692 Hrivnák R et al. Alien wetland annual Lindernia dubia (Scrophulariaceae): Biologia 71 (3) https://doi.org/10.1515/ Slovakia, Czech the first recently mentioned localities in Slovakia biolog-2016-0039 Republic, Hungary and their central European context Januario SM et al. Combining environmental suitability and population PeerJ 3:e1357 https://doi.org/10.7717/ Chile ꇷ abundances to evaluate the invasive potential of the tunicate peerj.1357 Ciona intestinalis along the temperate South American coast Kanturski M et al. Pine pest aphids of the genus Eulachnus (Hemiptera: Agricultural and Forest https://doi.org/10.1111/ Poland Aphididae: Lachninae): how far can their range extend? Entomology afe.12171 Katsanevakis S et al. Mapping the impact of alien species on marine Diversity and Distributions https://doi.org/10.1111/ Italy, Greece ꇷ ecosystems: the Mediterranean Sea case study ddi.12429 Keet J-H et al. Assessing the invasiveness of Berberis aristata South African Journal of https://doi.org/10.1016/j. South Africa and B. julianae (Berberidaceae) in South Africa: Botany 105: 288-298 sajb.2016.04.012 Management options and legal recommendations Kenis M et al. Assessing the ecological risk posed by a recently established BioControl https://doi.org/10.1007/ Switzerland, Belgium, invasive alien predator: Harmonia axyridis as a case study s10526-016-9764-x United Kingdom, United States Laugen AT et al. The Pacific Oyster (Crassostrea gigas) Biological Invasions in https://doi.org/10.1515/ Sweden Invasion in Scandinavian Coastal Waters: Changing Ecosystems 9783110438666-015 ꇷ Impact on Local Ecosystem Services Vectors, Ecological Impacts, Management and Predictions López-Martínez V et al. Environmental suitability for Agrilus auroguttatus Agricultural and Forest https://doi.org/10.1111/ Mexico, United States (Coleoptera: Buprestidae) in Mexico using MaxEnt and Entomology afe.12174 database records of four Quercus (Fagaceae) species Luizza MW et al. Integrating subsistence practice and species distribution Environmental https://doi.org/10.1007/ United States modeling: assessing invasive elodea’s potential impact on Management 1:20 s00267-016-0692-4 Native Alaskan subsistence of Chinook salmon and whitefsh Marchioro CA Global Potential Distribution of Bactrocera carambolae PLoS ONE 11(11) https://doi.org/10.1371/ Brazil ꇷ and the Risks for Fruit Production in Brazil journal.pone.0166142 10
invasive alien species AUTHORS TITLE JOURNAL DOI/URL AUTHOR COUNTRIES
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species conservation and protected areas
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Abdou L et al. Modeling the Geographic Distribution of Prosopis Environment and Natural https://doi.org/10.5539/ Niger africana (G. and Perr.) Taub. in Niger Resources Research enrr.v6n2p136 6 (2): 136-144 Aguilar-López JL et al. Species Diversity, Distribution, and Conservation Tropical Conservation https://doi.org/10.1177/ Mexico ꇷ Status in a Mesoamerican Region, Amphibians of Science 9(4) 1940082916670003 the Uxpanapa-Chimalapas Region, Mexico Albuquerque F & Beier P Predicted rarity-weighted richness, a new tool to Ecology and Evolution https://doi.org/10.1002/ United States ꇷ prioritize sites for species representation ece3.2544 Ayram CAC et al. Anthropogenic impact on habitat connectivity: A Ecological Indicators https://doi.org/10.1016/j. Mexico, Colombia multidimensional human footprint index evaluated 72: 895-909 ecolind.2016.09.007 in a highly biodiverse landscape of Mexico ꇷ Boavida J et al. Overlooked habitat of a vulnerable gorgonian Scientifc Reports 6: 36460 https://doi.org/10.1038/ Portugal revealed in the Mediterranean and Eastern srep36460 Atlantic by ecological niche modelling Brummitt N et al. Where are threatened ferns found? Global Journal of Systematics https://doi.org/10.1111/ United Kingdom conservation priorities for pteridophytes and Evolution jse.12224 Butterfeld BJ et al. Prestoration: using species in restoration Restoration Ecology https://doi.org/10.1111/ United States that will persist now and into the future rec.12381 Calderón L et al. Genomic evidence of demographic fuctuations and BMC Evolutionary https://doi.org/10.1186/ Germany, United lack of genetic structure across fyways in a long Biology 16:237 s12862-016-0817-7 States, France, ꇷ distance migrant, the European turtle dove United Kingdom, Spain, Bulgaria, Greece, Malta, Italy Carneiro LRdA et al. Limitations to the Use of Species-Distribution Models for PLoS ONE 11(1): e0146543 https://doi.org/10.1371/ Brazil ꇷ Environmental-Impact Assessments in the Amazon journal.pone.0146543 Castellanos-Morales G et al. Use of molecular and environmental analyses Biological Conservation https://doi.org/10.1016/j. Mexico for integrated in situ and ex situ conservation: biocon.2016.10.036 The case of the Mexican prairie dog Davis SL & Cipollini D Range, genetic diversity and future of the Insect Conservation https://doi.org/10.1111/ United States threatened butterfly, Pieris virginiensis and Diversity icad.12189 Diesmos AC et al. Amphibians of the Philippines, Part I: Checklist of the Species Proceedings of the http://bit.ly/2t9WQO6 Philippines, United California Academy of States, Malaysia Sciences 62(20): 457-539 dos Santos CF et al. Queens become workers: pesticides alter Scientifc Reports 6 https://doi.org/10.1038/ Brazil ꇷ caste diferentiation in bees srep31605 Gray CL et al. Local biodiversity is higher inside than outside Nature Communications https://doi.org/10.1038/ United Kingdom, ꇷ terrestrial protected areas worldwide 7: 12306 ncomms12306 Australia Hällfors MH et al. Assessing the need and potential of assisted Biological Conservation https://doi.org/10.1016/j. Finland, United States migration using species distribution models 196: 60-68 biocon.2016.01.031
Huang D et al. Conservation of reef corals in the South China Sea Biodiversity and https://doi.org/10.1007/ Singapore, Malaysia, based on species and evolutionary diversity Conservation s10531-016-1052-7 China, Taiwan, Brunei Darussalam, Philippines, Cambodia, Vietnam, Thailand Idohou R et al. Spatio-temporal dynamic of suitable areas for species Agroforestry Systems https://doi.org/10.1007/ Benin, United States conservation in West Africa: eight economically important s10457-016-9955-6 wild palms under present and future climates Jenkins CN et al. Patterns of Vertebrate Diversity and Protection in Brazil PLoS ONE 10(12): e0145064 https://doi.org/10.1371/ Brazil ꇷ journal.pone.0145064
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species conservation and protected areas
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Mendoza-González G et al. Priority areas for conservation of beach and dune Journal for Nature https://doi.org/10.1016/j. Mexico, United States vegetation of the Mexican Atlantic coast Conservation jnc.2016.04.007 Miller MH Status Review Report of 3 Species of Angelsharks: Report to National Marine http://bit.ly/2uhmy2K United States Squatina aculeata, S. oculata, and S. squatina Fisheries Service, Ofce of Protected Resources Obregón R et al. Efects of climate change on three species of Cupido Animal Biodiversity and http://bit.ly/2uh1cCJ Spain (Lepidoptera, Lycaenidae) with diferent biogeographic Conservation, 39.1: 115-128 distribution in Andalusia, southern Spain Osipova L & Sangermano F Surrogate species protection in Bolivia under Journal for Nature https://doi.org/10.1016/j. United States climate and land cover change scenarios Conservation 34: 107-117 jnc.2016.10.002 Ostrowski M-F et al. Potential Implications of Climate Change on PLoS ONE 11(4): e0153974 https://doi.org/10.1371/ France Aegilops Species Distribution: Sympatry of These journal.pone.0153974 ꇷ Crop Wild Relatives with the Major European Crop Triticum aestivum and Conservation Issues Peterson AT & Navarro- Bird conservation and biodiversity research Journal of Field Ornithology https://doi.org/10.1111/ United States, Mexico Sigüenza AG in Mexico: status and priorities jofo.12146
Peterson MS et al. Distribution, Abundance, and Habitat Characteristics Southeastern Naturalist https://doi.org/10.1656/ United States of Fundulus jenkinsi (Evermann) (Saltmarsh 15(3):415-430 058.015.0304 Topminnow) in Coastal Mississippi Watersheds, with Comments on Range-Wide Occurrences Based on Non-Vouchered and Museum Records Phillips J et al. In situ and ex situ diversity analysis of Diversity and Distributions https://doi.org/10.1111/ United Kingdom, priority crop wild relatives in Norway ddi.12470 Norway
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species conservation and protected areas
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Zhu GP et al. Mapping the ecological dimensions and potential Scientific Reports 6 https://doi.org/10.1038/ China ꇷ distributions of endangered relic shrubs in srep26268 western Ordos biodiversity center advancing biodiversity science AUTHORS TITLE JOURNAL DOI/URL AUTHOR COUNTRIES
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Araújo RM et al. Status, trends and drivers of kelp forests Biodiversity and https://doi.org/10.1007/ Portugal, Italy, Spain, in Europe: an expert assessment Conservation 25 s10531-016-1141-7 Germany, Norwey, (7): 1319-1348 France, United Kingdom, Australia Arias-Alzate A et al. Wild Felid Range Shift Due to Climatic Constraints in the Journal of Mammalian https://doi.org/10.1007/ Mexico, Colombia Americas: a Bottleneck Explanation for Extinct Felids? Evolution s10914-016-9350-0
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advancing biodiversity science AUTHORS TITLE JOURNAL DOI/URL AUTHOR COUNTRIES
Davies MR & Piontek S The marine fishes of St. Eustatius, Dutch Caribbean Marine Biodiversity https://doi.org/10.1007/ Netherlands s12526-016-0575-1 Davis TR First records of three fishes, and southern records of a Check List 12(6) https://doi. Australia ꇷ further four fishes, from New South Wales, Australia org/10.15560/12.6.2008 de Almeida DAC et al. Taxonomy and molecular phylogeny of Diatrypaceae Mycological Progress https://doi.org/10.1007/ Brazil, United States (Ascomycota, Xylariales) species from the Brazilian s11557-016-1194-8 semi-arid region, including four new species De La Cruz-Agüero J et al. Unusual records of deepwater teleosteans Journal of Fish Biology https://doi.org/10.1111/ Mexico trawled of the western coast of Mexico jfb.13087 de Melo WA et al. 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Gaddis KD et al. Dry-washes determine gene flow and genetic Landscape Ecology https://doi.org/10.1007/ United States diversity in a common desert shrub s10980-016-0393-7 García-Redondo V et al. First Record of Sexual Structures in Pterosiphonia Parasitica Thalassas: An International https://doi.org/10.1007/ Spain (Rhodomelaceae, Rhodophyta) from the Iberian Peninsula Journal of Marine Sciences s41208-016-0012-z Gherghel I et al. A revision of the distribution of sea kraits (Reptilia, ZooKeys 569: 135-148 https://doi.org/10.3897/ United States, ꇷ Laticauda) with an updated occurrence dataset zookeys.569.6975 France, Romania for ecological and conservation research Gómez C et al. 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Li G et al. Mapping the climatic suitable habitat of Scientific Reports 6: 30009 https://doi.org/10.1038/ China ꇷ oriental arborvitae (Platycladus orientalis) for srep30009 introduction and cultivation at a global scale Lin LH & Wiens JJ Comparing macroecological patterns across continents: Ecography https://doi.org/10.1111/ China, United States evolution of climatic niche breadth in varanid lizards ecog.02343 Liu H-M et al. Exploring the pteridophyte fora of the Eastern Journal of Systematics and https://doi.org/10.1111/ China, Kenya, United Afromontane biodiversity hotspot Evolution 54: 691–705 jse.12232 Kingdom, Germany Liu W et al. 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Medina I & Langmore NE The evolution of host specialisation in avian brood parasites Ecology Letters https://doi.org/10.1111/ Australia ele.12649 Meiri S Small, rare and trendy: traits and biogeography Journal of Zoology https://doi.org/10.1111/ Israel of lizards described in the 21st century jzo.12356 Mena-Portales J et al. Taxonomy, distribution and conservation status of Boletín de la Sociedad http://bit.ly/2uhpOeA Spain some interesting hyphomycetes (Anamrophic Fungi) Micológica de Madrid 39 from La Palma Biosphere Reserve, Canary Islands Merow C et al. Integrating occurrence data and expert maps Global Ecology and https://doi.org/10.1111/ United States, for improved species range predictions Biogeography geb.12539 United Kingdom Meyer C et al. Range geometry and socio-economics dominate Global Ecology and https://doi.org/10.1111/ Germany, United species-level biases in occurrence information Biogeography geb.12483 Kingdom, United States Mikula O et al. 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Update on the distribution of Myotis atacamensis Chiroptera Neotropical http://bit.ly/2dkiwRI Chile ꇷ (Chiroptera: Vespertilionidae): first record from 21(2): 1342-1346 central Chile and description of echolocation calls Roger N et al. Impact of pollen resources drift on common Global Change Biology https://doi.org/10.1111/ Belgium, Brazil, bumble bees in NW Europe gcb.13373 Portugal, Netherlands Saeedi H et al. Bimodal latitudinal species richness and high Journal of Biogeography https://doi.org/10.1111/ New Zealand endemicity of razor clams (Mollusca) jbi.12903 21
advancing biodiversity science AUTHORS TITLE JOURNAL DOI/URL AUTHOR COUNTRIES
Salas-Lopez A et al. The discovery of devil's gardens: an ant–plant Journal of Tropical Ecology https://doi.org/10.1017/ France mutualism in the cloud forests of the Eastern Amazon 32 (3): 264-268 S0266467416000195 Sanchez A Fidelity and Promiscuity in an Ant-Plant Mutualism: PLoS ONE 10(12): e0143535 https://doi.org/10.1371/ Colombia ꇷ A Case Study of Triplaris and Pseudomyrmex journal.pone.0143535 Sanín MJ et al. The Neogene rise of the tropical Andes facilitated Botanical Journal of https://doi.org/10.1111/ Colombia, Netherlands, diversification of wax palms (Ceroxylon: Arecaceae) through the Linnean Society boj.12419 Sweden, Denmark, geographical colonization and climatic niche separation Peru, France Santana-Moreno LD et al. First record of Ambidexter symmetricus (Decapoda: Revista Mexicana de https://doi.org/10.1016/j. 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Water supply and demand remain coordinated New Phytologist https://doi.org/10.1111/ Germany during breakdown of the global scaling relationship nph.14382 between leaf size and major vein density Scofoni C et al. Hydraulic basis for the evolution of Nature Plants 2 https://doi.org/10.1038/ United States photosynthetic productivity nplants.2016.72 Sebasky ME et al. Investigating past range dynamics for a Ecology and Evolution https://doi.org/10.1002/ United States ꇷ weed of cultivation, Silene vulgaris ece3.2250 Shabani F et al. A comparison of absolute performance of Ecology and Evolution https://doi.org/10.1002/ Australia, Iran ꇷ diferent correlative and mechanistic species ece3.2332 distribution models in an independent area Shabani F et al. Variances in the projections, resulting from CLIMEX, Boosted Theoretical and Applied https://doi.org/10.1007/ Australia, Iran Regression Trees and Random Forests techniques Climatology s00704-016-1812-z Shabani F et al. 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advancing biodiversity science AUTHORS TITLE JOURNAL DOI/URL AUTHOR COUNTRIES
Stropp J et al. Mapping ignorance: 300 years of collecting Global Ecology and https://doi.org/10.1111/ Italy, Brazil, United ꇷ fowering plants in Africa Biogeography geb.12468 Kingdom, Spain, Luxembourg, Belgium Sungani H et al. Multiple colonisations of the Lake Malawi catchment Molecular Phylogenetics https://doi.org/10.1016/j. United Kingdom, by the genus Opsaridium (Teleostei: Cyprinidae) and Evolution ympev.2016.09.027 Malawi, Tanzania, Austria, South Africa Tassia MG et al. The Global Diversity of Hemichordata. PLoS ONE 11(10): e0162564 https://doi.org/10.1371/ United States, ꇷ journal.pone.0162564 Sweden, Israel ter Steege H et al. The discovery of the Amazonian tree fora with Scientifc Reports 6: 29549 https://doi.org/10.1038/ Netherlands, Colombia, ꇷ an updated checklist of all known tree taxa srep29549 France, Sweden, United States, Brazil Thiede J A Review of Agave mitis (Asparagaceae/Agavaceae) Bradleya 34 http://bit.ly/2ugXWr9 Germany
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advancing biodiversity science AUTHORS TITLE JOURNAL DOI/URL AUTHOR COUNTRIES
Yang L-Q et al. Molecular phylogeny, biogeography and ecological Annals of Botany https://doi.org/10.1093/ China niche modelling of Cardiocrinum (Liliaceae): insights aob/mcw210 into the evolutionary history of endemic genera distributed across the Sino-Japanese floristic region Zhang D et al. Pleistocene sea level fluctuation and host plant habitat BMC Evolutionary https://doi.org/10.1186/ China, Japan requirement influenced the historical phylogeography Biology 16: 174 s12862-016-0748-3 ꇷ of the invasive species Amphiareus obscuriceps (Hemiptera: Anthocoridae) in its native range Zhang L et al. Using DEM to predict Abies faxoniana and Quercus Ecological Indicators https://doi.org/10.1016/j. China, Canada aquifolioides distributions in the upstream catchment 69: 91-99 ecolind.2016.04.008 basin of the Min River in southwest China Zhao J-L et al. Ecological divergence of two closely related Roscoea Journal of Biogeography https://doi.org/10.1111/ China, United States species associated with late Quaternary climate change jbi.12809 Zhao M et al. Phylogenetic relationships, song and distribution of the IBIS https://doi.org/10.1111/ China, Sweden endangered Rufous-headed Robin Larvivora ruficeps ibi.12426 Zizka A et al. Finding needles in the haystack: Where to look Ecography https://doi.org/10.1111/ Sweden, Netherlands, ꇷ for rare species in the American tropics ecog.02192 Brazil
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