Protected Areas - Global Register of Introduced and Invasive Species - St Lucia System, South Africa
Citation
Pagad S (2020). Protected Areas - Global Register of Introduced and Invasive Species - St Lucia System, South Africa. Version 1.1. Invasive Species Specialist Group ISSG. Checklist dataset https://doi.org/10.15468/sxxnlm accessed via GBIF.org on 2024-12-11.Description
The Protected Areas -Global Register of Introduced and Invasive Species (PA-GRIIS) presents validated checklists of introduced (alien) and invasive alien species at a site level. The primary intention of PA-GRIIS is to provide checklists of introduced (alien) and invasive species present on designated protected areas (such as National Parks, Ramsar sites- Wetlands of International importance, World Heritage Sites (natural and mixed), Marine protected areas etc.) and other areas of biodiversity significance (such as Important Plant Areas (IPA), Important Bird Areas (IBA) etc.), as well as buffer zones around these areas. Areas surrounding protected areas and other areas of high biodiversity significance can serve as an invasion source of alien and invasive species propagules. The establishment of buffer zones and the management of alien and invasive species within these areas is a key management strategy in the prevention of introduction and control/management of biological invasions. In the case of islands buffer zones. Checklists are living entities, especially for biological invasions given the growing nature of the problem. PA -GRIIS checklists are based on the GRIIS published methodology (Pagad et al 2018) and supported by the Integrated Publishing Tool of the Global Biodiversity Information Infrastructure (GBIF) that jointly enable ongoing improvements and updates to expand their taxonomic coverage and completeness. Phase 1 of the PA -GRIIS project will present close to 100 exemplar checklists of introduced (alien) and invasive species in a selection of protected areas and other areas of biodiversity significance This annotated checklist is of introduced (alien) and invasive alien species known to occur in St Lucia System, a Ramsar Site, Wetland of International Importance in South AfricaPurpose
It is envisaged that this resource will assist and countries progress the implementation of the Convention on Biological Diversity (CBDs) Programme of Work on Protected Areas (PoWPA); and protected area managers in the effective planning and management of the invasive species threat in these areas. This resource will also support countries to progress achievement of Aichi Target 9 -in the development of their protected area component of the National Biodiversity Strategy and Action Plans, their National Invasive Alien Species Strategy and Action Plan, target setting and monitoring.
Sampling Description
Study Extent
The geographic focus of this checklist is St Lucia System, a Ramsar Site, Wetland of International Importance in South AfricaSampling
This annotated checklist is focused on introduced (alien) and invasive species that are known to occur in St Lucia System, a Ramsar Site, Wetland of International Importance in South Africa The International Union for Conservation of Nature, (IUCN) describes an Introduced/ Alien and Invasive alien species as follows:An Introduced/ Alien species means a species, subspecies, or lower taxon occurring outside of its natural range (past or present) and dispersal potential (i.e. outside the range it occupies naturally or could not occupy without direct or indirect introduction or care by humans) and includes any part, gametes or propagule of such species that might survive and subsequently reproduce. An Invasive alien species means an alien species which becomes established in natural or semi-natural ecosystems or habitat, is an agent of change, and threatens native biological diversity. In PA -GRIIS, species are recorded as having an impact (as 'yes' under 'isInvasive') if there is evidence of the species negatively impacting biodiversity, and including species that are widespread, spreading rapidly or present in high abundance (Pagad et al. 2018). This usage is relevant to the purpose of PA -GRIIS, and consistent with the concept of impact as formulated by Parker et al. (1999) and now widely used (e.g. Didham et al. 2005, Strayer et al. 2006, McGeoch et al. 2010, 2012, Vila et al. 2011), where impact is a function not only of the per capita effect of an individual organism, but is a combined function of the effect, abundance and range size of a species. Impact can of course be defined in different ways, driven by different objectives, such as its usage in EICAT where it is defined as a measurable change to the properties of an ecosystem caused by an alien taxon (Hawkins et al. 2015). Pagad S, Genovesi P, Carnevali L, Schigel D, McGeoch MA (2018) Introducing the Global Register of Introduced and Invasive Species. Scientific Data, 5, 170202. https://www.nature.com/articles/sdata2017202 Parker I, Simberloff D, Lonsdale W. et al. (1999) Impact: Toward a Framework for Understanding the Ecological Effects of Invaders. Biological Invasions 1, 3–19 (1999). https://doi.org/10.1023/A:1010034312781 Didham RK, Tylianakis JM, Hutchison MA, Ewers RM, Gemmell NJ. (2005) Are invasive species the drivers of ecological change? Trends Ecol Evol. 2005 Sep;20(9):470-4. Epub 2005 Jul 21. Strayer DL, Eviner VT, Jeschke JM, Pace ML. (2006) Understanding the long-term effects of species invasions. Trends in Ecology & Evolution 21(11):645-51 McGeoch MA, Butchart SHM, Spear D, Marais E. Kleynhans EJ, Symes A, Chanson J, Hoffmann M. (2010) Global indicators of biological invasion: species numbers, biodiversity impact and policy responses. Diversity and Distributions Volume16, Issue1 January 2010 McGeoch, M.A., Spear, D., Kleynhans, E.J. & Marais, E. 2012. Uncertainty in invasive alien species listing. Ecological Applications 22, 959-971. 10.1890/11-1252.1 Vilà M, Espinar JL, Hejda M, Hulme PE, Jarošík V, Maron JL, Pergl J, Schaffner U, Sun Y, Pyšek P. (2011) Ecological impacts of invasive alien plants: a meta‐analysis of their effects on species, communities and ecosystems. Ecology Letters Volume14, Issue7 July 2011 Pages 702-708 Hawkins CL, Bacher S, Essl F, Hulme PE, Jeschke JM, Kühn I, Kumschick S, Nentwig W, Pergl J, Pyšek P, Rabitsch W, Richardson DM, Vilà M, Wilson JRU, Genovesi P, Blackburn TM. (2015) Framework and guidelines for implementing the proposed IUCN Environmental Impact Classification for Alien Taxa (EICAT) Diversity and Distributions Volume21, Issue11 November 2015 Pages 1360-1363
Quality Control
The draft checklist is compiled by collating data and information through a comprehensive literature overview. Additional steps implemented to control the quality of the data are described below. Taxonomic harmonization and normalization using the GBIF taxonomic backbone In order to harmonize all species names across countries, species lists are subjected to a normalization process in which taxon rank and taxonomic status are identified and assigned. Spelling and other errors in assigning species authorship are also corrected. Data validation The checklist compiler team completes a review and validates all the annotations especially those on provenance and 'invasiveness' status of the species based on evidence of impact. Data verification The checklist is submitted to a network of protected area managers for a review of both accuracy of records, annotations and identification of any significant gaps in the data. Data verification is an iterative process and the activity is declared completed on agreement of all relevant country editors. A key tenet of the PA -GRIIS project is the engagement with protected area managers in the verification process and as custodians of their site checklists. In cases where this engagement is still in development the PA -GRIIS compiler team has completed the validation of the species records.Method steps
- Data collation and categorization Data filtering and categorization/ classification Taxonomic harmonization and normalization Data validation Data verification
- The published methods underpinning GRIIS and each checklist are described in the following article: Pagad S, Genovesi P, Carnevali L, Schigel D, McGeoch MA (2018) Introducing the Global Register of Introduced and Invasive Species. Scientific Data, 5, 170202. https://www.nature.com/articles/sdata2017202
Additional info
Versioning The PA -GRIIS checklists are dynamic and reflect the latest known status of alien and invasive species presence and impacts. Evaluation of ‘invasiveness’ and impacts of alien species are ongoing and the checklists will be updated as and when data is received. The original versions of each country checklist (v1.0) undergo two potential types of updates: 1. Major updates: These happen when batches of new species or records become available, usually addressing multiple taxonomic groups simultaneously. Each checklist is assigned a new version number after a major update (e.g. from v1.0 to v2.0). 2. Incremental updates: These are smaller ongoing updates involving the addition of new species or records based on new publications as well as taxonomic or other updates. Incremental updates to a checklist are associated with a subversion number, e.g. v1.1. The checklist version number is visible/available on the citation.Taxonomic Coverages
Animalia, Bacteria, Chromista, Fungi, Plantae, Protozoa, Viruses
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Animaliarank: kingdom
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Bacteriarank: kingdom
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Chromistarank: kingdom
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Fungirank: kingdom
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Plantaerank: kingdom
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Protozoarank: kingdom
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Virusesrank: kingdom
Geographic Coverages
South Africa
Bibliographic Citations
Contacts
Shyama Pagadoriginator
position: Deputy Chair- Information
IUCN SSC INvasive Species Specialist Group
NZ
email: s.pagad@auckland.ac.nz
Shyama Pagad
metadata author
position: Deputy Chair- Information
IUCN SSC INvasive Species Specialist Group
NZ
email: s.pagad@auckland.ac.nz
Shyama Pagad
user
position: Deputy Chair- Information
IUCN SSC INvasive Species Specialist Group
NZ
email: s.pagad@auckland.ac.nz
Shyama Pagad
administrative point of contact
position: Deputy Chair- Information
IUCN SSC INvasive Species Specialist Group
NZ
email: s.pagad@auckland.ac.nz