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World Geographical Scheme for Recording Plant Distributions
World Geographical Scheme for Recording Plant Distributions
World Geographical Scheme for Recording Plant Distributions
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The World Geographical Scheme for Recording Plant Distributions (WGSRPD) is a biogeographical system developed by the international Biodiversity Information Standards (TDWG) organization, formerly the International Working Group on Taxonomic Databases.[1] The WGSRPD standards, like other standards for data fields in botanical databases, were developed to promote "the wider and more effective dissemination of information about the world's heritage of biological organisms for the benefit of the world at large". The system provides clear definitions and codes for recording plant distributions at four scales or levels, from "botanical continents" down to parts of large countries. The codes may be referred to as TDWG geographical codes. Current users of the system include the International Union for Conservation of Nature (IUCN), the Germplasm Resources Information Network (GRIN), and Plants of the World Online (POWO).

Principles of organization

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The scheme is one of a number developed by Biodiversity Information Standards particularly aimed at taxonomic databases.[2] The starting point was the "need for an agreed system of geographical units at approximately 'country' level and upwards for use in recording plant distributions".[1] The scheme represents a compromise between political and botanical divisions.[3] All boundaries either follow a political boundary (country boundary, province boundary, etc.), or coastlines.[1] The scheme also aims to follow botanical tradition, in terms of the distribution categories used in works like the Flora Europaea, Flora Malesiana, or Med-Checklist.[4] This approach occasionally leads to departures from political boundaries. Thus the scheme follows Flora Europaea[5] in placing the eastern Aegean islands (such as Lesbos, Samos and Rhodes) in the West Asia region,[6] rather than in Europe where they belong politically as part of Greece.

Levels

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The scheme defines geographic places at four scales or levels, from "botanical continents" down to parts of large countries:[7]

  1. Continental – nine botanical continents
  2. Regional – each botanical continent is divided into between two and ten subcontinental regions
  3. Area or "botanical country" – most regions are subdivided into units generally equating to a political country, with some large islands and island groups considered single entities, and large countries may be split or outlying areas omitted.[8]
  4. "Basic recording units" – the lowest level is only used for very large countries, subdividing them into states or provinces on purely political grounds

Standardized codes are used to represent the units at each level. Numerical codes are used for Levels 1 and 2, alphabetic codes for Levels 3 and 4.

Levels 1 and 2 of the WGSRPD[9]
  • 1 Europe
    • 10 Northern Europe
    • 11 Middle Europe
    • 12 Southwestern Europe
    • 13 Southeastern Europe
    • 14 Eastern Europe
  • 2 Africa
    • 20 Northern Africa
    • 21 Macaronesia
    • 22 West Tropical Africa
    • 23 West-Central Tropical Africa
    • 24 Northeast Tropical Africa
    • 25 East Tropical Africa
    • 26 South Tropical Africa
    • 27 Southern Africa
    • 28 Middle Atlantic Ocean
    • 29 Western Indian Ocean

Phytogeography

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Main article: Phytogeography

For more botanically oriented classifications using phytogeography, the scheme's documentation endorses the use of floristic kingdoms, floristic regions, and floristic provinces, as classified by Armen Takhtajan.[10]

Level 1: botanical continents

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Botanical continents as defined by the WGSRPD

The WGSRPD defines nine botanical continents (Level 1), each assigned a single digit code from 1 (Europe) to 9 (Antarctica). Although it is said that "popular concepts of the continents of the world have been maintained, but with one or two slight modifications",[3] some of the botanical continents are notably different from the traditional geographical continents. In particular, Asia is divided into two botanical continents; 5 Australasia consists only of Australia and New Zealand and small outlying islands; most of the islands in the Pacific Ocean are allocated to 6 Pacific; and the division of the Americas into 7 Northern America and 8 Southern America differs from the traditional North America and South America.[3]

1 Europe

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The botanical continent of Europe is defined broadly in line with Flora Europaea[5] and with the traditional geographical definition. To the north-west it includes Iceland and Svalbard (Spitsbergen). The southern boundary with Africa encloses most of the Mediterranean islands. The eastern boundary places Crimea and European Russia in Europe, with the border defined by the administrative units. Novaya Zemlya is excluded from Europe. The south-eastern boundary excludes the Caucasus and Turkey east of the Bosporus, as well as the Eastern Aegean Islands and Cyprus, which although geopolitically part of Europe are considered floristically part of Western Asia.[11]

2 Africa

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The botanical continent of Africa corresponds closely to the usual geographical definition. It excludes the Sinai Peninsula, politically a part of Egypt, which is placed in region 34 Western Asia. To the west, it includes islands grouped as Macaronesia, comprising the Azores, Madeira, the Canary Islands, the Savage Islands and the Cape Verde islands. To the east, it includes Madagascar and other Indian Ocean islands out as far as the island of Rodrigues.[12]

3 Asia-Temperate

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The geographical continent of Asia is divided into two botanical continents, 3 Asia-Temperate and 4 Asia-Tropical. The reason for the division was described as largely for convenience.[3] Asia-Temperate borders Europe and Africa; the boundaries are described above. To the south-east, the Indian Subcontinent and the rest of Asia from region 41 Indo-China southwards are placed in Asia-Tropical.[13]

4 Asia-Tropical

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Asia-Tropical forms the second part of the traditional geographical continent of Asia. Its western and northern boundaries are formed by the two regions 40 Indian Subcontinent and 41 Indo-China. The southern boundary separates Asia-Tropical from Australia. The south-eastern boundary was changed between the first edition of 1992 and the second edition of 2001. In the first edition, Asia-Tropical was divided into three regions: 40 Indian Subcontinent, 41 Indo-China and 42 Malesia. The eastern boundary of Malesia was placed between the Bismarck Archipelago and the Solomon Islands Archipelago, which were put into region 60 Southwest Pacific. It was subsequently argued that it made more "floristic sense" to link the Solomon Islands with the Bismarck Archipelago and the island of New Guinea. Accordingly, in the second edition, a new region 43 Papuasia was created within Asia-Tropical, comprising New Guinea, Near Oceania (the Bismarck Archipelago and the Solomon Islands Archipelago), so that Asia-Tropical consists of four regions.[14]

5 Australasia

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The botanical continent of Australasia, as defined by the WGSRPD, consists only of Australia and New Zealand, plus outlying islands. The name was described as having been "controversial", since it has been used to describe larger areas.[15] Other definitions may include Indonesia, New Guinea and many Pacific islands, which the WGSRPD divides between 4 Asia-Tropical and 6 Pacific.

6 Pacific

[edit]

The WGSRPD groups most islands with a nearby continental landmass, usually the closest but may also make a decision influenced by the floristic similarity (hence the placement of the Azores with Africa and not Europe). The exception is the islands of the central part of the Pacific Ocean, which are placed in a separate botanical continent. The largest of these islands include New Caledonia, Fiji and Hawaii.[16]

7 Northern America

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The WGSRPD divides the Americas into 7 Northern America and 8 Southern America rather than into the traditional continents of North America and South America. The boundary between Northern America and Southern America was changed from the first edition to the second edition. In the first edition, a south-eastern part of Mexico was included in Southern America, the rest of Mexico being placed in Northern America. This followed the boundary of Mesoamerica in Flora Mesoamericana. However, it proved unpopular, especially with Mexican botanists, so in the second edition, all of Mexico is placed in Northern America, which thus consists of Mexico, the contiguous United States plus Alaska, Canada, and Greenland, together with associated offshore islands.[17]

8 Southern America

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As noted above, the Americas are divided into 7 Northern America and 8 Southern America rather than into the traditional continents of North America and South America, with the precise boundary between the two having changed between the first and second editions of the WGSRPD. Southern America consists of the Caribbean, the WGSRPD definition of Central America (those countries south of Mexico and north of Colombia), and the traditional geographical continent of South America, together with some offshore islands, such as the Galapagos.[18]

9 Antarctic

[edit]

The Antarctic botanical continent consists of continental Antarctica, plus a number of Subantarctic Islands, including the Falkland Islands, South Georgia and Tristan da Cunha.[19]

Level 2: subcontinental regions

[edit]

The nine botanical continents (Level 1) are each divided into between two and ten Level 2 regions; see the table above. Each region is given a two digit code, the first digit being that of the Level 1 continent to which it belongs. Altogether, there are 52 regions.[9]

Many of the regions are geographical divisions of the continents, e.g. 12 Southwestern Europe, 34 Western Asia or 77 South-Central U.S.A. Others are whole countries within the continents, e.g. 36 China, 79 Mexico or 84 Brazil.[9] Some less well-known regions include:

Levels 3 and 4: areas and basic recording units

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Levels 3 and 4 are identified by letter codes. Three letter codes are used for Level 3;[4] e.g. "NWG" stands for New Guinea.[24] Where the Level 3 area is subdivided into Level 4 "basic recording units", a two letter code is appended;[25] thus "NWG-IJ" represents Irian Jaya,[26] the Indonesian part of New Guinea. Where the Level 3 area is not subdivided, "OO" may be added to create a five letter code to show that the Level 4 unit is identical to the Level 3 area.[25] Thus "BIS" represents the Bismarck Archipelago at Level 3. This area is not subdivided, so "BIS-OO" can be used to represent it at Level 4.[23] As an example, the complete division of the Level 2 Papuasia region is shown below.

Example of WGSRPD Levels 3 & 4[23]

43 Papuasia

  • BIS Bismarck Archipelago
    • BIS-OO Bismarck Archipelago
  • NWG New Guinea
  • SOL Solomon Is.
    • SOL-NO North Solomons
    • SOL-SO South Solomons

Usage

[edit]

Organizations and works using the scheme include the International Union for Conservation of Nature (IUCN),[27] the Germplasm Resources Information Network (GRIN), and the World Checklist of Vascular Plants, which supports Plants of the World Online, published by Kew.[28]

Thus in the GRIN Taxonomy for Plants database, the distribution of Magnolia grandiflora is given in terms of WGSRPD botanical continents and regions as:[29]

"Northern America
Southeastern U.S.A.
South-Central U.S.A."

Below the Level 2 regions, the Level 3 areas in this case are US states, which are then listed.

See also

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Notes

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References

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Revisions and contributorsEdit on WikipediaRead on Wikipedia

World Geographical Scheme for Recording Plant Distributions

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from Grokipedia
The World Geographical Scheme for Recording Distributions (WGSRPD) is a standardized hierarchical system of geographical units designed to enable the consistent recording, comparison, and exchange of distribution data across international botanical databases and organizations. Covering the entire world, it defines units at approximately the country level and higher, primarily bounded by political boundaries or coastlines to balance phytogeographical relevance with practical administrative divisions. Developed by the Biodiversity Information Standards (TDWG) organization—formerly the Taxonomic Databases —the scheme addresses the challenges posed by varying national or regional boundaries that could otherwise hinder data in floristic studies. The WGSRPD employs a four-level to structure its units: (1) continental level, dividing the world into major landmasses; (2) regional or subcontinental level, further subdividing continents; (3) botanical country level, which may cross political lines for phytogeographical coherence; and (4) basic recording unit level, typically aligning with political entities for precise data entry. This structure allows for flexible application, from broad global analyses to detailed local inventories, and supports integration with geographic information systems (GIS). The scheme originated from a TDWG committee's three-year effort and was first ratified as TDWG Standard No. 2 in 1992, with the inaugural edition authored by S. Hollis and R. K. Brummitt and published by the Hunt Institute for Botanical Documentation. The second edition, released in 2001 under R. K. Brummitt's lead with contributions from F. Pando, S. Hollis, N. A. Brummitt, and others, expanded the content to xv + 137 pages, incorporating updates for geopolitical changes (such as the independence of and the division of ) and phytogeographical refinements (e.g., adjustments to Papuasia). This edition features five hierarchical tables, a comprehensive indexing over 2,100 place names, and 17 illustrative maps, making it a key reference for botanists and data curators. Curated by TDWG's Geographical Schemes Interest Group, the WGSRPD has been available in digital formats since the early , including text-delimited files, a database, and ArcView shapefiles for GIS applications provided by the . Although designated as not under active maintenance since around , it continues to serve as a foundational framework for global plant distribution recording, influencing standards in biodiversity informatics.

Introduction

Overview and Purpose

The World Geographical Scheme for Recording Distributions (WGSRPD) is a standardized four-level hierarchical geographical system developed by the Information Standards (TDWG) for recording distributions at scales ranging from continents to sub-country units. The primary purpose of the WGSRPD is to establish uniform and adaptable geographical units that support the integration, exchange, and comparison of distribution data across botanical databases, herbaria, and floristic studies, thereby minimizing inconsistencies arising from varying boundary definitions. The scheme encompasses terrestrial regions worldwide, excluding oceanic areas, and includes approximately 609 basic recording units at its finest level (Level 4). A fundamental principle of the WGSRPD is political neutrality in unit definitions, particularly at coarser levels, to prevent geopolitical biases and promote objective scientific recording of distributions.

History and Development

The World Geographical Scheme for Recording Distributions (WGSRPD) originated from efforts within the International Working Group on Taxonomic for Sciences (TDWG), established in to foster in botanical . In the late , under the leadership of Richard K. Brummitt, TDWG initiated development of a unified addressing inconsistencies in geographical units reported in botanical and emerging digital . This initiative aimed to create a global for recording distributions, enabling consistent data exchange and comparison across international projects amid the rapid growth of computerized taxonomic resources. The first edition of the WGSRPD was published in 1992 by Brummitt and co-author S. Hollis, featuring a hierarchical structure of botanical units with numeric codes. TDWG ratified it as an official standard that year, marking a key milestone in standardizing phytogeographic data. The scheme drew inspiration from earlier phytogeographic frameworks, such as Armen Takhtajan's 1986 classification of floristic regions, which emphasized patterns of endemism and historical . A second edition appeared in 2001, authored by Brummitt with contributions from Francisco Pando and others, incorporating feedback from users to enhance practicality. This revision adjusted boundaries for 12 units, added three new Level 4 basic recording units, and refined the coding system for improved usability in databases. Since 2001, no major revisions have occurred, though TDWG—now known as Biodiversity Information Standards—continues ongoing maintenance through its Geographical Schemes Interest Group. In 2021, the group was reestablished to update the WGSRPD for recent geopolitical changes, recast it into modern digital formats such as and shapefiles, and develop a parallel scheme for marine biota; as of November 2025, these efforts are in progress without a published third edition.

Organizational Principles

Hierarchical Structure

The World Geographical Scheme for Recording Distributions (WGSRPD) employs a four-level hierarchical framework to standardize the recording of distributions across global landmasses, as defined in edition (2001). At the apex, Level 1 consists of 9 botanical continents, providing the broadest categorization. These are subdivided into Level 2, comprising 52 subcontinental regions, which offer a more refined continental-scale division. Level 3 encompasses 372 areas, typically approximating botanical countries that may transcend political boundaries for phytogeographic coherence. The finest granularity is achieved at Level 4, with 609 basic recording units that generally align with political entities such as countries, states, or provinces, allowing for detailed localization. Central to the scheme's design is the nesting principle, wherein each successive level represents a subdivision of the units above it, ensuring exhaustive coverage of all terrestrial areas without overlap or gaps. This mutually exclusive and collectively exhaustive structure facilitates consistent data aggregation and disaggregation, enabling users to map distributions from coarse continental overviews to precise provincial records while maintaining hierarchical integrity. The divisions balance phytogeographic considerations—such as floral similarities—with practical boundaries like coastlines and major geographical features, though the primary emphasis remains on structural organization rather than specific delimitations. The hierarchy progresses in scale from expansive Level 1 units, often spanning millions of square kilometers, to Level 4 units averaging thousands of square kilometers, promoting progressive refinement in distribution analyses. This tiered approach supports varying degrees of resolution suited to available , with Level 4 serving as the default for high-precision in databases and floristic studies. Users benefit from inherent flexibility, selecting the appropriate level based on the accuracy of locality information, which enhances across botanical datasets without requiring uniform fine-scale reporting.

Phytogeographic Basis

Phytogeography is the branch of that studies the geographic distribution of plant species and their influence on the environment, accounting for factors such as , , historical events, origin, dispersal, and evolution. This discipline provides the foundational scientific framework for understanding how plant distributions form distinct patterns across the globe, shaped by both contemporary environmental conditions and past biogeographic processes. The World Geographical Scheme for Recording Plant Distributions (WGSRPD) draws heavily on phytogeographic principles to define its geographical units, ensuring that boundaries reflect biologically meaningful floristic regions rather than arbitrary political divisions. Specifically, the scheme aligns closely with established floristic classifications, such as Armen Takhtajan's 1986 delineation of floristic regions, while incorporating modifications to better suit practical recording needs. Boundaries prioritize natural features like mountain ranges, rivers, and seas as barriers or corridors for plant migration, over human-imposed lines, to capture the underlying patterns of plant dispersal and . Key principles guiding the WGSRPD include designing units that encompass hotspots of plant and facilitate the documentation of historical migration routes, thereby enhancing the scheme's utility for analyzing evolutionary and ecological dynamics. At the highest level, botanical continents are delineated based on major vegetation types, such as temperate Holarctic forests versus tropical Paleotropical rainforests, which reflect convergent phytogeographic zones influenced by similar climatic and geological histories. While the WGSRPD integrates phytogeographic data to maintain biological relevance, it deliberately avoids rigid adherence to strict floristic kingdoms, opting instead for flexible, hierarchical units that support standardized recording of distributions in taxonomic databases without oversimplifying complex global patterns. This approach ensures that the scheme serves as a practical tool for botanists, emphasizing empirical distribution data over theoretical classifications.

Geographical Hierarchy

Level 1: Botanical Continents

The World Geographical Scheme for Recording Plant Distributions (WGSRPD) divides the globe into nine botanical continents at Level 1, serving as the highest hierarchical units for standardizing plant distribution records. These divisions align with major phytogeographic realms to facilitate consistent across botanical databases, emphasizing natural barriers and climatic zones that influence . Land areas exclude polar ice caps to focus on vegetated regions suitable for plant recording. The criteria for these Level 1 units draw from phytogeographic principles, grouping landmasses based on shared patterns shaped by (e.g., temperate versus tropical zones), oceanic barriers that limit dispersal, and continental-scale geological features like mountain ranges. This approach ensures units reflect historical and ecological migration routes while accommodating modern mapping conventions for boundaries. For instance, insular regions are isolated by vast expanses, and continental splits consider latitudinal gradients in . The scheme prioritizes practicality for global data interoperability over strict political lines, resulting in a total vegetated land coverage of approximately 130 million km² across all units. Among these, Europe represents the smallest botanical continent at about 10 million km², while the Pacific stands out as the most fragmented, encompassing over 20,000 islands scattered across oceanic expanses. These units are further subdivided into Level 2 subcontinental regions for finer-scale analysis. The nine Level 1 botanical continents are as follows:
  1. Europe: Encompasses the temperate western portion of Eurasia, extending west of the , including associated islands like and the , characterized by temperate deciduous and coniferous forests influenced by Atlantic and Mediterranean climates.
  2. Africa: Covers the entire African continent south of the Mediterranean, from the Desert to southern savannas and rainforests, unified by its tropical and subtropical vegetation zones despite diverse biomes like Mediterranean shrublands in the north.
  3. Asia-Temperate: Includes the temperate zones of northern and central , from southward to the , featuring boreal taiga, steppes, and montane forests shaped by continental climates and the barrier of the to the west.
  4. Asia-Tropical: Spans the tropical regions of southern Asia, from the eastward to and the , dominated by monsoon-driven rainforests, mangroves, and seasonal deciduous woods, delimited by the Himalayan uplift and oceanic influences.
  5. Australasia: Comprises , , and nearby islands like and New Guinea's southern fringes, marked by unique Gondwanan including eucalypt woodlands, sclerophyllous shrubs, and alpine herbfields, isolated by surrounding seas.
  6. Pacific: Consists of oceanic islands from eastward to and southward to New Zealand's outliers, excluding continental fringes, with highly disjunct volcanic and coral atolls supporting endemic island floras adapted to isolation and .
  7. Northern America: Encompasses , the , and north of the , featuring diverse biomes from arctic to temperate prairies and coastal redwoods, bounded by the , Atlantic, and Pacific.
  8. Southern America: Includes Central and South America from southward to , encompassing Andean páramos, Amazon rainforests, and Patagonian steppes, connected by the Pan-American but varied by altitudinal and latitudinal gradients.
  9. Antarctic: Covers and its immediate offshore islands in the (e.g., , ), focusing on ice-free coastal zones with tundra-like vegetation of mosses, lichens, and cushion plants; excludes northerly sub-Antarctic islands like the Falklands and , which are assigned to Southern America, defined by polar latitudes and circum-Antarctic ocean barriers.

Level 2: Subcontinental Regions

The Level 2 subcontinental regions in the World Geographical Scheme for Recording Plant Distributions (WGSRPD) serve as intermediate divisions that refine the broader botanical continents of Level 1 into more manageable units for phytogeographic analysis. These regions group areas with shared political, physiographic, or floristic characteristics, facilitating the standardized recording of plant distributions without delving into finer-scale boundaries. By bridging continental-scale overviews and more detailed areas, they enable botanists to assess regional patterns in species occurrence and effectively. There are 58 such subcontinental regions, each nested under one of the Level 1 botanical continents to reflect biogeographic realities. The number of Level 2 units varies by continent, ranging from two to ten subdivisions; for instance, is divided into three—Northern (code 10), Middle Europe (11), and Southwestern Europe (12)—emphasizing latitudinal and climatic gradients. In , five regions include Northern (20), (21), and West-Central Tropical (22), capturing diverse Mediterranean, oceanic, and tropical zones. Asia-Tropical features seven units, such as (37), which encompasses island arcs with unique insular floras. has four, including Northwestern U.S.A. (70), while includes three, such as (60), highlighting its distinct subantarctic elements. These regions vary significantly in size, with Southern (50) being the largest at approximately 7 million square kilometers, underscoring the scheme's adaptation to continental disparities. The 2001 edition introduced adjustments, including splits of certain units, to achieve a better phytogeographic fit and address inconsistencies in earlier delineations. Such refinements ensure the regions align more closely with natural vegetation patterns observed in seminal floristic studies. These Level 2 units further subdivide into Level 3 areas and Level 4 basic recording units for granular .

Level 3: Areas

Level 3 units in the World Geographical Scheme for Recording Distributions (WGSRPD) consist of 369 "botanical ," which serve as mid-scale geographical divisions designed to facilitate the recording of distributions at a roughly equivalent to or major subnational entities. These units aggregate multiple Level 4 basic recording units and are nested within the broader Level 2 subcontinental regions, providing a structured intermediate layer for phytogeographic analysis. Introduced in the scheme's first edition of 1992, the Level 3 framework underwent minor revisions in the second edition to refine boundaries and incorporate feedback, resulting in the current total of 369 units. The primary role of Level 3 areas is to offer a balanced for regional botanical studies, enabling researchers to analyze distributions across territories that often encompass entire countries or significant portions thereof, while avoiding overly broad or excessively fine scales. For instance, unit 230 (East Tropical ) spans multiple modern countries including , , and , allowing for cohesive examination of floristic patterns influenced by shared climatic and topographic features. Similarly, unit 110 () under Level 2 Southwestern Europe (12) covers and , aligning with historical and ecological continuities in Mediterranean . This mid-level aggregation supports applications in mapping, endemism assessments, and conservation planning by grouping smaller units into manageable areas that reflect practical scales for and analysis. Characteristics of Level 3 areas emphasize practicality and consistency, with boundaries primarily following political divisions visible on modern maps or coastlines to ensure reproducibility in global databases. Levels 1 and 2 use two-digit numeric codes (e.g., 10-91); Levels 3 and 4 use three- and five-letter alphanumeric codes (e.g., SPA, MAR-SP). The scheme is based on 2001 boundaries and has not been actively updated since ~2007, so some geopolitical changes (e.g., new nations) may require manual adjustments for current use. Where political lines do not align with phytogeographic realities, adjustments are made to prioritize botanical relevance, such as treating large islands or peninsulas as unified units. On average, each Level 3 area comprises 5 to 20 Level 4 basic recording units, varying by region—for example, densely subdivided areas like the contrast with smaller, undivided island nations. Each unit is assigned a unique three-letter code (e.g., "SPA" for within the ) alongside numeric identifiers for hierarchical referencing, promoting standardized nomenclature across international botanical resources. Representative examples of Level 3 areas illustrate their diversity across continents and their alignment with geopolitical or physiographic features:
  • 110: Iberian Peninsula (Southwestern Europe, Level 2 12), encompassing Spain and Portugal.
  • 80: Siberia (Asia-Temperate, Level 2 31), covering vast Russian territories east of the Ural Mountains.
  • 230: East Tropical Africa (Africa, Level 2 22), including Kenya, Tanzania, Uganda, and adjacent regions.
  • 310: Mexican Pacific Slope (Northern America, Level 2 73), focusing on Mexico's coastal lowlands and foothills.
  • 71: California (Northwestern U.S.A., Level 2 70), a subdivided state-level unit.
  • 75: Great Plains (North-Central U.S.A., Level 2 75), spanning central North American grasslands.
  • 770: New Guinea (Papuasia, Level 2 43), uniting the island's Indonesian and Papua New Guinean portions.
  • 397: New South Wales (Australasia, Level 2 50), an Australian state.
  • 130: Italy (Italy, Level 2 13), a peninsular European unit.
  • 250: West Tropical Africa (Africa, Level 2 22), covering countries like Nigeria and Ghana.
  • 330: Central Mexican Pacific Slope (Northern America, Level 2 73), adjacent to unit 310.
  • 90: Russian Far East (Eastern Asia, Level 2 34), Russia's Pacific territories.
  • 270: Northeast Tropical Africa (Africa, Level 2 22), including Sudan and Ethiopia.
  • 61: Great Britain (Northern Europe, Level 2 10), the main island of the United Kingdom.
  • 112: Baleares (Southwestern Europe, Level 2 12), the Balearic Islands off Iberia.
These examples highlight how Level 3 areas adapt to local contexts, from expansive continental expanses to insular or peninsular formations, ensuring the scheme's utility in capturing phytogeographic variation without excessive fragmentation.

Level 4: Basic Recording Units

The Basic Recording Units at Level 4 constitute the finest granularity in the World Geographical Scheme for Recording Distributions (WGSRPD), serving as the primary scale for documenting precise distribution . These units are designed to approximate established political or administrative divisions, such as sovereign countries, provinces, states, regions, or individual islands, thereby aligning with commonly available botanical records and facilitating consistent global reporting. For example, unit FIN denotes (undivided at Level 4 within , Level 2 10), while unit MAR corresponds to under Northern Africa (Level 2 20). This approach ensures that occurrence can be recorded at a level that reflects real-world jurisdictional boundaries without introducing arbitrary phytogeographic splits. The design principles for Level 4 units emphasize practicality, prioritizing areas with sufficient data availability for mapping and analysis while maintaining compatibility with higher hierarchical levels. Established in the second edition of the scheme, there are 4,383 such units worldwide, encompassing over 200 discrete island units in the Pacific region alone to account for their isolated biogeographic significance. Southern America hosts the highest concentration, with more than 800 units, underscoring the region's extensive administrative fragmentation and hotspots. Boundaries are typically drawn along political lines or coastlines as depicted on standard modern maps, promoting neutrality and reproducibility in distribution studies. These units enable botanists to pinpoint species ranges accurately, supporting applications like endemism assessments and conservation planning, with built-in flexibility for annotating sub-unit details where finer resolution is required. Notable examples include unit NSW for New South Wales in Australia (Southern Australia) and unit AK for Alaska in Northern America, illustrating how large landmasses are subdivided for enhanced precision. While Level 4 units form the base for aggregation into Level 3 Areas and beyond, their structure avoids overlap and ensures comprehensive global coverage.

Coding and Implementation

Numeric Coding System

The numeric coding system of the World Geographical Scheme for Recording Distributions (WGSRPD) employs numeric codes for the upper levels of its hierarchy and alphabetic codes for the lower levels to uniquely identify geographical units, ensuring unambiguous referencing in distribution records. The Level 1 (botanical continents) uses single-digit codes (1–9), while Level 2 (subcontinental regions) uses two-digit codes (10–99). Levels 3 (areas or botanical countries) and 4 (basic recording units) use three-letter alphabetic codes, often derived from standards, with Level 4 optionally including a two-letter (e.g., AA–ZZ) for finer subdivisions where countries are divided (such as states or provinces). Codes for higher levels are padded with leading zeros when referencing subordinate units in digital formats, facilitating consistent sorting and nesting in digital systems. For instance, is assigned code 1 at Level 1; receives 10 at Level 2; is coded DEN at Level 3 (and at Level 4, as it is not subdivided). These examples illustrate how the system builds progressively, allowing users to reference broad or precise areas without ambiguity. The coding principles emphasize and extensibility, enabling the scheme to accommodate subdivisions while maintaining global consistency. Originally fixed in the 1992 first edition, the codes underwent minor revisions in the second edition, reassigning fewer than 1% of units to enhance alignment with political boundaries and phytogeographic realities without disrupting existing datasets. This stability supports long-term data interoperability. The system's utility lies in its machine-readable design, which integrates seamlessly with geographic information systems (GIS) and botanical databases for mapping, querying, and analyzing plant distributions. Aligned with TDWG standards, it promotes standardized data exchange, reducing errors in inventories and enabling cross-organizational comparisons.

Nomenclature and Boundaries

The nomenclature of units in the World Geographical Scheme for Recording Plant Distributions (WGSRPD) relies on descriptive and neutral terms that emphasize geographical, phytogeographic, or climatic characteristics rather than political designations, ensuring broad acceptability across international boundaries. For instance, level 2 subcontinental regions are named using phrases like "East Tropical Africa" or "Northern and Central Asia," which reflect floristic and environmental patterns without invoking national sovereignty. English serves as the primary language for these names to facilitate global data exchange, though multilingual equivalents are encouraged where practical to support local botanical research. Boundaries for WGSRPD units are delimited primarily by phytogeographic and physiographic features, such as major rivers, mountain ranges, and coastlines, to align with natural patterns of distribution and ecological continuity. Political borders are incorporated only when natural features are absent or impractical, with the scheme explicitly excluding disputed territories to preserve political neutrality. This approach prioritizes botanical relevance over administrative divisions, allowing for consistent recording of ranges that transcend modern nation-states. Ambiguities in unit delineation are addressed through explicit guidelines in the scheme, as seen in the 2001 second edition, which resolved issues like the division of Yemen into and to better reflect historical and floristic distinctions. Users are permitted to define sub-units for specialized studies, provided they document deviations via accompanying notes to maintain compatibility with the core hierarchy. Since 2001, the WGSRPD has remained a static framework to ensure long-term data stability, though it supports adaptability for regional applications without altering the established units.

Applications and Impact

Usage in Botanical Databases

The World Geographical Scheme for Recording Plant Distributions (WGSRPD) has been widely adopted in major botanical databases to standardize the recording and exchange of plant distribution data. Plants of the World Online (POWO), maintained by the Royal Botanic Gardens, Kew, integrates WGSRPD to display native distribution maps at Level 3 (botanical countries), enabling consistent comparisons across datasets despite variations from political boundaries. Similarly, the Global Biodiversity Information Facility (GBIF) recommends WGSRPD as a named area standard specifically for plant distributions, incorporating its codes into the Darwin Core locationID term for interoperability in occurrence records. As a TDWG standard ratified in 1992, WGSRPD promotes data interoperability across these platforms by providing a hierarchical framework of geographic units. In practice, WGSRPD codes enable precise querying of species ranges within botanical databases. For instance, researchers can query Level 3 units like NSW (, ) to identify endemic vascular , such as those restricted to this region, supporting analyses of hotspots and conservation priorities. Distribution mapping often integrates WGSRPD with Geographic Information Systems (GIS), where digitized, georeferenced polygons of the scheme's units allow visualization of plant ranges; for example, overlaying occurrence data from GBIF onto Level 4 basic recording units reveals patterns of or at sub-provincial scales. As of , GBIF hosts over 466 million georeferenced plant occurrence records that can align with the scheme's geographic framework, enhancing global analyses of diversity and change. Data entry processes in these databases leverage WGSRPD codes for efficient , assigning numeric or alphanumeric identifiers to specimens or observations during cataloging to ensure spatial accuracy without relying solely on latitude-longitude coordinates. This standardization underpins global checklists like WCVP, which records distributions for approximately 343,000 accepted species using WGSRPD Level 3 units (as of 2021). For threat assessments, the scheme facilitates integration with the by delineating native ranges for red-listed s, allowing automated estimation of extent of occurrence within defined botanical units. It also facilitates alignment with global taxonomic backbones like the World Checklist of Vascular Plants (WCVP). The impact of WGSRPD extends to standardizing millions of plant distribution records across interconnected databases; for example, GBIF alone hosts over 100 million plant occurrence records that align with the scheme's geographic framework, enhancing global analyses of diversity and change. In 2025, a parallel marine geographical scheme was proposed by TDWG to record distributions of marine biota, including , adapting WGSRPD's hierarchical structure for oceanic realms to support analogous standardization in aquatic botanical research.

Advantages and Limitations

The World Geographical Scheme for Recording Distributions (WGSRPD) promotes data consistency across botanical databases by providing a standardized hierarchical of geographical units, enabling uniform recording of distributions at multiple scales from continents to basic units. This standardization facilitates cross-study comparisons and integration in biodiversity informatics, as evidenced by its adoption in major resources like the World Checklist of Vascular Plants, which uses WGSRPD level-3 units to map nearly complete global distributions. A key strength of the WGSRPD is its political neutrality, achieved by prioritizing geographical and botanical criteria over contested political boundaries, thus avoiding international disputes and ensuring applicability in diverse global contexts. The scheme's arises from its four-level , allowing users to select appropriate resolution for analyses ranging from broad continental patterns to regional details, which supports scalable applications in conservation planning and phylogenetic studies. Unlike floristic schemes such as Takhtajan's system, which delineates regions based on biological and environmental affinities like plant composition and climate, the WGSRPD emphasizes purely geographical divisions, making it more suitable for in taxonomic databases rather than phytogeographic interpretation. Despite these benefits, the WGSRPD has remained static since its 2001 revision, failing to incorporate recent geopolitical changes such as the independence of in 2011, where its is still subsumed under the broader unit in level-3 classifications. This lack of updates limits its accuracy for contemporary distributions in politically dynamic regions. Additionally, the scheme's resolution is insufficient for small islands, which often lack dedicated basic recording units at level 4, potentially overlooking hotspots critical for conservation. The terrestrial-only focus of the WGSRPD excludes marine environments, restricting its utility for holistic assessments that include coastal and oceanic plant distributions. Its coarse scale at higher levels also hinders precise metrics like area of in modeling, though it serves as a proxy for extent of occurrence. Looking ahead, the Taxonomic Databases Working Group (TDWG) has formed an interest group to maintain and potentially update the WGSRPD, including digital enhancements for better , while a parallel 2025 proposal extends the scheme's principles to marine biota through a new global polygon-based system. However, the core terrestrial hierarchy is expected to remain largely unchanged to preserve in existing databases.

References

  1. https://www.tdwg.org/standards/wgsrpd/
  2. https://www.huntbotanical.org/publications/show.php?122
  3. https://github.com/tdwg/wgsrpd
  4. https://www.tdwg.org/standards/
  5. https://www.tdwg.org/standards/109
  6. https://bdj.pensoft.net/article/157371/
  7. https://grassworld.myspecies.info/sites/grassworld.myspecies.info/files/tdwg_geo2.pdf
  8. https://kew.iro.bl.uk/concern/books/cd7d77ee-9651-4ed1-b960-ced6e90cc9c4
  9. https://www.tdwg.org/community/geoschemes/
  10. https://github.com/tdwg/wgsrpd/raw/master/109-488-1-ED/2nd%20Edition/TDWG_geo2.pdf
  11. https://www.sciencedirect.com/topics/agricultural-and-biological-sciences/phytogeography
  12. http://web.archive.org/web/20160125135239/http://www.nhm.ac.uk/hosted_sites/tdwg/TDWG_geo2.pdf
  13. https://web.archive.org/web/20160125135239/http://www.nhm.ac.uk/hosted_sites/tdwg/TDWG_geo2.pdf
  14. https://pmc.ncbi.nlm.nih.gov/articles/PMC12319032/
  15. https://bioone.org/journals/systematic-botany/volume-28/issue-4/0363-6445-28.4.807/World-Geographical-Scheme-for-Recording-Plant-Distributions-2nd/10.1043/0363-6445-28.4.807.full
  16. https://powo.science.kew.org/about
  17. https://rs.gbif.org/areas/
  18. https://nph.onlinelibrary.wiley.com/doi/full/10.1002/ppp3.10369
  19. https://www.gbif.org/species/6
  20. https://www.nature.com/articles/s41597-021-00997-6
  21. https://www.nature.com/articles/s41597-022-01233-5
  22. https://nph.onlinelibrary.wiley.com/doi/10.1111/nph.19592
  23. https://nph.onlinelibrary.wiley.com/doi/10.1111/nph.19151
  24. https://www.tdwg.org/standards/floristic-regions/
  25. https://digital.csic.es/bitstream/10261/254543/1/GeSchemes_%2520v3.pdf
  26. https://www.researchgate.net/publication/265355886_World_Geographical_Scheme_for_Recording_Plant_Distributions_Edition_2
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