Filling in socio‐ecological knowledge gaps to support marine spatial planning in data‐scarce areas: Example from Zanzibar

Filling in socio‐ecological knowledge gaps to support marine spatial planning in data‐scarce areas: Example from Zanzibar

Marine spatial planning (MSP) is one of the most important tools for ensuring sustainable use of marine areas. Although MSP is a well‐established method, its adoption in rapidly developing countries is a challenge. One of the main concerns is data adequacy, as the MSP process typically requires a la...

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Veröffentlicht in:Conservation science and practice 2025-01, Vol.7 (1), p.n/a
Hauptverfasser: Virtanen, Elina A., Käyhkö, Niina, Khamis, Zakaria, Muhammad, Muhammad Juma, Muumin, Hashim, Habib, Mohammed, Karvinen, Ville, Lappalainen, Juho, Koskelainen, Meri, Kulha, Niko, Viitasalo, Markku
Format: Artikel
Sprache:eng
Schlagworte:
Blue economy
Coastal zone management
Coasts
Community
community mapping
Data collection
Ecosystems
Environmental planning
Islands
Marine conservation
Marine protected areas
Marine resources
marine spatial planning
PGIS
Planning
Population growth
public engagement
remote sensing
Seafood
Spatial data
Tourism
Underwater resources
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container_title Conservation science and practice
container_volume 7
creator Virtanen, Elina A.
Käyhkö, Niina
Khamis, Zakaria
Muhammad, Muhammad Juma
Muumin, Hashim
Habib, Mohammed
Karvinen, Ville
Lappalainen, Juho
Koskelainen, Meri
Kulha, Niko
Viitasalo, Markku
description Marine spatial planning (MSP) is one of the most important tools for ensuring sustainable use of marine areas. Although MSP is a well‐established method, its adoption in rapidly developing countries is a challenge. One of the main concerns is data adequacy, as the MSP process typically requires a large amount of spatial data on human activities, biodiversity, and socio‐ecological interactions within the planning area. Drawing from an institutional cooperation project in Zanzibar, Tanzania, we share our experience and demonstrate how to fill in socio‐ecological data gaps to support the development of MSP in areas with limited data availability. We developed a rapid and cost‐effective system for collecting biological data, which, together with remote sensing and place‐based participatory mapping, helped formulate the first pilot ecologically informed MSP for Zanzibar. By sharing our results and experiences, we aim to provide best practices, lessons learned, and recommendations for future projects with a similar ecological setting and socio‐economic context. Muhtasari Upangaji wa eneo la Baharini (MSP) ni miongoni mwa zana muhimu ya kuhakikisha matumizi endelevu ya maeneo ya bahari. Wakati mbinu za upangaji wa eneo la bahari zimeanzishwa vizuri, changamoto kwa nchi zinazoendelea kwa haraka inakuja kwenye kuasili. Moja katika wasiwasi mkubwa unaosababisha hilo ni utoshelevu wa taarifa, kama ilivyo upangaji wa eneo la bahari ni mchakato unaohitaji kiasi kikubwa cha taarifa za anga katika shughuli za binaadamu, viumbe hai na muingiliano wa kijamii na kiikolojia katika eneo linalopangwa. Kutokana na uzoefu wetu kutoka katika mradi wa ushirikiano wa Taasisi wa Zanzibar, Tanzania, tunakushirikisha katika utambuzi wetu tulioupata kutoka katika upangaji wa eneo la bahari tulioutengeneza kwa ushirikishwaji unaofaa katika maeneo yenye uhaba wa upatikanaji wa taarifa. Tumetengeneza mfumo wa haraka na wenye gharama nafuu kwa ajili ya kukusanyia taarifa za kibiolojia, ambazo pamoja na taarifa za mbali na eneo maalum la ramani shirikishi, imetusaidia kutengeneza eneo la kwanza la Zanzibar lenye taarifa za kiikolojia za baharini. Kwa kuwapatia matokeo na uzoefu wetu, tunalenga kutoa mfano bora, mafunzo yaliyopatika na mapendekezo kwa ajili ya miradi ijayo yenye mipangilio ya kiikolojia inayofanana na muktadha wa siasa za jamii husika. Our study demonstrates how to fill in socio‐ecological data gaps to support the development of marine spatial planning in areas with limited
doi_str_mv 10.1111/csp2.13284
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Although MSP is a well‐established method, its adoption in rapidly developing countries is a challenge. One of the main concerns is data adequacy, as the MSP process typically requires a large amount of spatial data on human activities, biodiversity, and socio‐ecological interactions within the planning area. Drawing from an institutional cooperation project in Zanzibar, Tanzania, we share our experience and demonstrate how to fill in socio‐ecological data gaps to support the development of MSP in areas with limited data availability. We developed a rapid and cost‐effective system for collecting biological data, which, together with remote sensing and place‐based participatory mapping, helped formulate the first pilot ecologically informed MSP for Zanzibar. By sharing our results and experiences, we aim to provide best practices, lessons learned, and recommendations for future projects with a similar ecological setting and socio‐economic context. Muhtasari Upangaji wa eneo la Baharini (MSP) ni miongoni mwa zana muhimu ya kuhakikisha matumizi endelevu ya maeneo ya bahari. Wakati mbinu za upangaji wa eneo la bahari zimeanzishwa vizuri, changamoto kwa nchi zinazoendelea kwa haraka inakuja kwenye kuasili. Moja katika wasiwasi mkubwa unaosababisha hilo ni utoshelevu wa taarifa, kama ilivyo upangaji wa eneo la bahari ni mchakato unaohitaji kiasi kikubwa cha taarifa za anga katika shughuli za binaadamu, viumbe hai na muingiliano wa kijamii na kiikolojia katika eneo linalopangwa. Kutokana na uzoefu wetu kutoka katika mradi wa ushirikiano wa Taasisi wa Zanzibar, Tanzania, tunakushirikisha katika utambuzi wetu tulioupata kutoka katika upangaji wa eneo la bahari tulioutengeneza kwa ushirikishwaji unaofaa katika maeneo yenye uhaba wa upatikanaji wa taarifa. Tumetengeneza mfumo wa haraka na wenye gharama nafuu kwa ajili ya kukusanyia taarifa za kibiolojia, ambazo pamoja na taarifa za mbali na eneo maalum la ramani shirikishi, imetusaidia kutengeneza eneo la kwanza la Zanzibar lenye taarifa za kiikolojia za baharini. Kwa kuwapatia matokeo na uzoefu wetu, tunalenga kutoa mfano bora, mafunzo yaliyopatika na mapendekezo kwa ajili ya miradi ijayo yenye mipangilio ya kiikolojia inayofanana na muktadha wa siasa za jamii husika. Our study demonstrates how to fill in socio‐ecological data gaps to support the development of marine spatial planning in areas with limited data availability. We developed a rapid and cost‐effective system for collecting biological data, which, together with remote sensing and place‐based participatory mapping, helped formulate the first pilot of ecologically informed marine spatial plan for Zanzibar. Photo credit: Ville Karvinen and Juho Lappalainen.</description><identifier>ISSN: 2578-4854</identifier><identifier>EISSN: 2578-4854</identifier><identifier>DOI: 10.1111/csp2.13284</identifier><language>eng</language><publisher>Chichester, UK: John Wiley &amp; Sons, Ltd</publisher><subject>Blue economy ; Coastal zone management ; Coasts ; Community ; community mapping ; Data collection ; Ecosystems ; Environmental planning ; Islands ; Marine conservation ; Marine protected areas ; Marine resources ; marine spatial planning ; PGIS ; Planning ; Population growth ; public engagement ; remote sensing ; Seafood ; Spatial data ; Tourism ; Underwater resources</subject><ispartof>Conservation science and practice, 2025-01, Vol.7 (1), p.n/a</ispartof><rights>2024 The Author(s). published by Wiley Periodicals LLC on behalf of Society for Conservation Biology.</rights><rights>2025. This work is published under http://creativecommons.org/licenses/by/4.0/ (the "License"). 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Although MSP is a well‐established method, its adoption in rapidly developing countries is a challenge. One of the main concerns is data adequacy, as the MSP process typically requires a large amount of spatial data on human activities, biodiversity, and socio‐ecological interactions within the planning area. Drawing from an institutional cooperation project in Zanzibar, Tanzania, we share our experience and demonstrate how to fill in socio‐ecological data gaps to support the development of MSP in areas with limited data availability. We developed a rapid and cost‐effective system for collecting biological data, which, together with remote sensing and place‐based participatory mapping, helped formulate the first pilot ecologically informed MSP for Zanzibar. By sharing our results and experiences, we aim to provide best practices, lessons learned, and recommendations for future projects with a similar ecological setting and socio‐economic context. Muhtasari Upangaji wa eneo la Baharini (MSP) ni miongoni mwa zana muhimu ya kuhakikisha matumizi endelevu ya maeneo ya bahari. Wakati mbinu za upangaji wa eneo la bahari zimeanzishwa vizuri, changamoto kwa nchi zinazoendelea kwa haraka inakuja kwenye kuasili. Moja katika wasiwasi mkubwa unaosababisha hilo ni utoshelevu wa taarifa, kama ilivyo upangaji wa eneo la bahari ni mchakato unaohitaji kiasi kikubwa cha taarifa za anga katika shughuli za binaadamu, viumbe hai na muingiliano wa kijamii na kiikolojia katika eneo linalopangwa. Kutokana na uzoefu wetu kutoka katika mradi wa ushirikiano wa Taasisi wa Zanzibar, Tanzania, tunakushirikisha katika utambuzi wetu tulioupata kutoka katika upangaji wa eneo la bahari tulioutengeneza kwa ushirikishwaji unaofaa katika maeneo yenye uhaba wa upatikanaji wa taarifa. Tumetengeneza mfumo wa haraka na wenye gharama nafuu kwa ajili ya kukusanyia taarifa za kibiolojia, ambazo pamoja na taarifa za mbali na eneo maalum la ramani shirikishi, imetusaidia kutengeneza eneo la kwanza la Zanzibar lenye taarifa za kiikolojia za baharini. Kwa kuwapatia matokeo na uzoefu wetu, tunalenga kutoa mfano bora, mafunzo yaliyopatika na mapendekezo kwa ajili ya miradi ijayo yenye mipangilio ya kiikolojia inayofanana na muktadha wa siasa za jamii husika. Our study demonstrates how to fill in socio‐ecological data gaps to support the development of marine spatial planning in areas with limited data availability. We developed a rapid and cost‐effective system for collecting biological data, which, together with remote sensing and place‐based participatory mapping, helped formulate the first pilot of ecologically informed marine spatial plan for Zanzibar. Photo credit: Ville Karvinen and Juho Lappalainen.</description><subject>Blue economy</subject><subject>Coastal zone management</subject><subject>Coasts</subject><subject>Community</subject><subject>community mapping</subject><subject>Data collection</subject><subject>Ecosystems</subject><subject>Environmental planning</subject><subject>Islands</subject><subject>Marine conservation</subject><subject>Marine protected areas</subject><subject>Marine resources</subject><subject>marine spatial planning</subject><subject>PGIS</subject><subject>Planning</subject><subject>Population growth</subject><subject>public engagement</subject><subject>remote sensing</subject><subject>Seafood</subject><subject>Spatial data</subject><subject>Tourism</subject><subject>Underwater resources</subject><issn>2578-4854</issn><issn>2578-4854</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2025</creationdate><recordtype>article</recordtype><sourceid>24P</sourceid><sourceid>BENPR</sourceid><sourceid>DOA</sourceid><recordid>eNp9kdFKHTEQhpfSgqLe-ASB3gnHJtlkN9s7OWgVBAt61ZswJ5ldcpqzickerELBR-gz-iRGV6RX5mbC8M03A39VHTJ6zMr7ZnLkx6zmSnyqdrls1UIoKT7_99-pDnJeU0o5k7St5W7198x578aBuJHkYFx4evyHJvgwOAOe_B7DnUc7IBkgZjIFkrcxhjSRDSQ3IskRJlfA6GEc3zwWJiiabCAZJJAQ8ndy-gc20SPpU9iQXzA-uBWk_epLDz7jwVvdq27OTm-W54vLqx8Xy5PLheEdF4vOtsw2zPSy6_oeO9o1VLTcAAVUuGq57JRBRRtZy34l2gaZtWChttxgC_VedTFrbYC1jsmV4-91AKdfGyENGtLkjEddF7MCbFAJKnq7UkYiFZQVsazL6uL6OrtiCrdbzJNeh20ay_W6ZlLwVnaCFupopkwKOSfs37cyql_C0i9h6dewCsxm-M55vP-A1Mvrn3yeeQbtkZm6</recordid><startdate>202501</startdate><enddate>202501</enddate><creator>Virtanen, Elina A.</creator><creator>Käyhkö, Niina</creator><creator>Khamis, Zakaria</creator><creator>Muhammad, Muhammad Juma</creator><creator>Muumin, Hashim</creator><creator>Habib, Mohammed</creator><creator>Karvinen, Ville</creator><creator>Lappalainen, Juho</creator><creator>Koskelainen, Meri</creator><creator>Kulha, Niko</creator><creator>Viitasalo, Markku</creator><general>John Wiley &amp; 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Although MSP is a well‐established method, its adoption in rapidly developing countries is a challenge. One of the main concerns is data adequacy, as the MSP process typically requires a large amount of spatial data on human activities, biodiversity, and socio‐ecological interactions within the planning area. Drawing from an institutional cooperation project in Zanzibar, Tanzania, we share our experience and demonstrate how to fill in socio‐ecological data gaps to support the development of MSP in areas with limited data availability. We developed a rapid and cost‐effective system for collecting biological data, which, together with remote sensing and place‐based participatory mapping, helped formulate the first pilot ecologically informed MSP for Zanzibar. By sharing our results and experiences, we aim to provide best practices, lessons learned, and recommendations for future projects with a similar ecological setting and socio‐economic context. Muhtasari Upangaji wa eneo la Baharini (MSP) ni miongoni mwa zana muhimu ya kuhakikisha matumizi endelevu ya maeneo ya bahari. Wakati mbinu za upangaji wa eneo la bahari zimeanzishwa vizuri, changamoto kwa nchi zinazoendelea kwa haraka inakuja kwenye kuasili. Moja katika wasiwasi mkubwa unaosababisha hilo ni utoshelevu wa taarifa, kama ilivyo upangaji wa eneo la bahari ni mchakato unaohitaji kiasi kikubwa cha taarifa za anga katika shughuli za binaadamu, viumbe hai na muingiliano wa kijamii na kiikolojia katika eneo linalopangwa. Kutokana na uzoefu wetu kutoka katika mradi wa ushirikiano wa Taasisi wa Zanzibar, Tanzania, tunakushirikisha katika utambuzi wetu tulioupata kutoka katika upangaji wa eneo la bahari tulioutengeneza kwa ushirikishwaji unaofaa katika maeneo yenye uhaba wa upatikanaji wa taarifa. Tumetengeneza mfumo wa haraka na wenye gharama nafuu kwa ajili ya kukusanyia taarifa za kibiolojia, ambazo pamoja na taarifa za mbali na eneo maalum la ramani shirikishi, imetusaidia kutengeneza eneo la kwanza la Zanzibar lenye taarifa za kiikolojia za baharini. Kwa kuwapatia matokeo na uzoefu wetu, tunalenga kutoa mfano bora, mafunzo yaliyopatika na mapendekezo kwa ajili ya miradi ijayo yenye mipangilio ya kiikolojia inayofanana na muktadha wa siasa za jamii husika. Our study demonstrates how to fill in socio‐ecological data gaps to support the development of marine spatial planning in areas with limited data availability. We developed a rapid and cost‐effective system for collecting biological data, which, together with remote sensing and place‐based participatory mapping, helped formulate the first pilot of ecologically informed marine spatial plan for Zanzibar. Photo credit: Ville Karvinen and Juho Lappalainen.</abstract><cop>Chichester, UK</cop><pub>John Wiley &amp; Sons, Ltd</pub><doi>10.1111/csp2.13284</doi><tpages>16</tpages><orcidid>https://orcid.org/0000-0001-9702-6677</orcidid><oa>free_for_read</oa></addata></record>
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subjects Blue economy
Coastal zone management
Coasts
Community
community mapping
Data collection
Ecosystems
Environmental planning
Islands
Marine conservation
Marine protected areas
Marine resources
marine spatial planning
PGIS
Planning
Population growth
public engagement
remote sensing
Seafood
Spatial data
Tourism
Underwater resources
title Filling in socio‐ecological knowledge gaps to support marine spatial planning in data‐scarce areas: Example from Zanzibar
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