Impact Factor 3.661 | CiteScore 4.4
More on impact ›

Systematic Review ARTICLE

Front. Mar. Sci., 03 September 2020 | https://doi.org/10.3389/fmars.2020.00499

Systematic Review of Spatial Planning and Marine Protected Areas: A Brazilian Perspective

  • 1Faculty of Biology and Chemistry, University of Bremen, Bremen, Germany
  • 2Leibniz Centre for Tropical Marine Research (ZMT), Bremen, Germany
  • 3LabPexca, Universidade Federal do Pará (UFPA), Bragança, Brazil
  • 4Laboratório de Ecologia de Manguezal (LAMA), Universidade Federal do Pará (UFPA), Bragança, Brazil
  • 5ESAC (Grupo de Estudos Socioambientais Costeiros), Universidade Federal do Pará (UFPA)/Campus Bragança, Bragança, Brazil

Marine protected areas (MPAs) are essential to human well-being and usually part of spatial planning processes for managing coastal and marine areas. In Brazil, national-level spatial planning processes are still incipient. This article offers a systematic review through a comparative meta-analysis of the literature on MPAs and spatial planning based on the following questions: (I) What topics are investigated in spatial planning in MPAs worldwide? and (II) What are the advances and trends of these topics in Brazilian MPAs? Specific goals of this study are (I) to identify studies on Brazil; and (II) to compare and contrast these with studies performed elsewhere. The PRISMA report was used to select literature, with a focus on three spatial contexts (I) outside Brazil, analyzing studies from other countries; (II) in Brazil; and (III) a case study in Brazil that focuses on a sustainable-use area in northeastern Pará. Studies outside Brazil showed three major groups of themes: (I) planning and tools; (II) stakeholders; and (III) the ecology of non-human species. For the Brazilian context, studies were grouped into five major themes: (I) small-scale fishing practices and conflicts; (II) participation in protected areas; (III) technical aspects of the planning process, (IV) zoning; and (V) mapping. The local case study investigates socio-cultural sustainability and tourism. All identified studies relate to use, but have a greater focus on conservation and, especially abroad, on species and ecosystems. There are few reviews or comparative studies that could help to draw parallels between the different spatial planning settings. We conclude that synthesis work on spatial management strategies worldwide is needed, including the elaboration of frameworks to develop measures to address the widespread lack of data and spatial planning expertise. Collaborative networks of researchers and practitioners are needed for this. The novelty in our study is that it examines MPAs and spatial planning research at three spatial contexts with innovative methodologies to represent the current state of the spatial planning discourse in coastal and marine conservation.

Introduction

A marine protected area1 (MPA) is a geographical space reserved by law, considered essential to human well-being (Gubbay, 2005) and, especially, to local communities (Bennett and Dearden, 2014). The implementation of MPAs has grown worldwide (Potts et al., 2014; Leenhardt et al., 2015; Tonin, 2018) as a management strategy to conserve resources (Bennett and Dearden, 2014). However, MPAs still need to be better planned (IUCN, 2009). They have an important role in marine spatial planning (MSP) (GEF, 2012) with MSP understood as a public process for organizing the use of marine space, and pursuing social, economic, and ecological benefits (Ehler and Douvere, 2009). The relationship between MPAs and MSP is sometimes described based on geographic level: Marine protected areas represent marine spatial planning at lower levels (or smaller scales2), while MSP usually refers to a higher-level process (Strickland-Munro et al., 2016). MPAs are recognized as an important element of MSP (Ehler and Douvere, 2009). Another cornerstone of MSP is zoning, which, in this study, is considered a management tool in the wider context of MSP (Dudley, 2008; Kenchington and Day, 2011). It focuses on the MSP process within (IUCN, 2012) and outside MPAs. The relationship between MSP, MPA, and zoning is clarified in Figure 1.

FIGURE 1
www.frontiersin.org

Figure 1. Relationship between key concepts in marine, area-based management. *MPA zoning, where some aspects of management are spatially identified, should be distinguished from ocean zoning, where strategies, such as MPAs, and sectoral activities are spatially regulated at higher levels. Zoning applies to the management of MPAs based on the International Union for the Conservation of Nature (IUCN) categories. The diagram is based on the literature and concepts presented in this introduction.

Thus, MSP is one element of ocean or sea use management, whereas zoning plans and other regulations are one of a set of management actions for implementing MSP (Ehler and Douvere, 2009). Whether zones are highly, moderately, or weakly regulated influences the overall protection level of MPAs (Costa et al., 2016; Horta e Costa et al., 2016). Therefore, zoning applies to the management of MPAs considering their zone classification and the International Union for the Conservation of Nature (IUCN) categories of protected areas (Dudley, 2008). It facilitates the identification of types of resource uses (Domínguez-Tejo et al., 2016), as well as challenges, knowledge gaps, and institutional difficulties in MSP (Katsanevakis et al., 2011). Zoning, MPA networks, and MSP are helpful processes for ecosystem-based, marine spatial management (Katsanevakis et al., 2011). Moreover, diverse stakeholders have emphasized the importance of including MSP as a tool to harmonize different marine uses, including renewable energy generation, aquaculture, and climate change adaptation (Lombard et al., 2019). Still, MSP is incipient worldwide (Abspoel et al., 2019) and studies on MSP and zoning are rarely published in peer-reviewed journals (Domínguez-Tejo et al., 2016), although the number of published studies is growing (Rêgo et al., 2016).

In Brazil, the Blue Amazon represents the country's Exclusive Economic Zone (EEZ) and has an area of 5.7 million km2, or approximately half of Brazil's terrestrial area3, which makes it one of the largest on the planet (Gerhardinger et al., 2018). The implementation of zoning strategies in the Brazilian EEZ is still at an early stage (Gerhardinger et al., 2019), despite existing projects that aim at the management of coastal areas, such as the Orla Project (Casemiro et al., 2018). Brazilian protected areas, inserted in the National System of Conservation Units (Brazil, 2000), are part of an important conservation strategy toward the conservation of myriad coastal and marine ecosystems, including mangroves (Pinheiro et al., 2015). Federal protected areas are divided into two main groups: strictly protected areas (17%) and sustainable use areas (83%) (MMA and ICMBIO, 2018). The goal of strictly protected areas is to preserve nature so that only indirect use, which does not involve consumption, collection, or destruction, is allowed (Brazil, 2000). The sustainable use group aims to reconcile nature conservation and direct use, allowing for the collection and commercial use of natural resources (Brazil, 2000).

One of the categories in the sustainable use group is the extractive reserve. This model pursues the participation of local stakeholders in the management of natural resources (Brazil, 2000; Partelow et al., 2018): members of traditional communities have the role of co-managers (da Silva, 2004). In the case of mangroves, for example, “mangrove civilizations” (Diegues, 1995) practice artisanal fisheries (Diegues, 2008). These are usually the main socio-economic activity in these areas (Fernandes et al., 2018), such as the Amazon macrotidal mangrove coast (Souza Filho, 2005). This coast is one of the longest (Souza Filho, 2005) and most important protected mangrove regions on the planet (Hayashi et al., 2019) and its coastal-estuarine communities depend on the mangrove ecosystem services (Eyzaguirre and Fernandes, 2018; Fernandes et al., 2018).

Despite the importance of ecosystems such as the northern mangroves, policy measures for MSP in Brazil are at an early stage (Gerhardinger et al., 2019), and the development of knowledge creation in this front remains poorly understood. In the implementation arena, the incipiency of spatial management in Brazilian MPAs is revealed by the fact that only 19% of these areas have management plans4, which usually include the MPA's zoning. Assessing the status of MSP in Brazil can help identify gaps and conservation needs in marine conservation. The development of effective management plans and zoning strategies requires systematic data, which are usually gathered by, or in collaboration with, scientific studies.

With the aim to better understand research in MPAs and spatial management in different spatial contexts5, this article offers a systematic review through a meta-analysis of the literature and addresses the following questions: (I) Which topics studied relating to spatial planning in MPAs have been investigated worldwide? and (II) What are the advances and trends in these topics regarding MPAs in Brazil, both considering the whole country and a case study? and (III) How do studies performed worldwide (outside Brazil) compare to those performed in Brazil? This last question aims to assess how a single country has been developing research in MPAs and spatial management and how this research differs from other countries. This helps identify common topics, successes, and challenges in spatial planning inside and outside Brazil, while also pinpointing aspects that are specific for the Brazilian context and that could dialogue with the experience of other countries with the goal to promote mutual learning and the exchange of experience.

Materials and Methods

Spatial Contexts

Studies were categorized according to three spatial contexts (or the geographic areas analyzed): (I) outside Brazil, (II) in Brazil, and (III) in a case study MPA in north Brazil, the Caeté-Taperaçu marine extractive reserve, located in the coastal Bragantinian northeastern region of Pará (Mendes, 2005; IBGE, 2010; Figure 2). The mangrove areas in the Amazonian mangrove belt are a Ramsar Site (RAMSAR, 2018). They represent at least 57% of the mangrove coverage in Brazil, with an area of about 7,591 km2 (Souza Filho, 2005). They have high biodiversity (Abdala et al., 2012) and are one of the largest continuous extensions of mangroves on the planet (Souza Filho, 2005). Caeté-Taperaçu is one of the few marine extractive reserves in the marine biome that has a zoning plan and where local research contributed to formulate the management plan (Abdala et al., 2012). This marine extractive reserve therefore offers a good case study to investigate the literature on spatial planning inside Brazil.

FIGURE 2
www.frontiersin.org

Figure 2. Study area for the local case study MPA, the Caeté-Taperaçu marine extractive reserve (C), in the northeastern region of Pará (B), northern Brazil (A). Data source: Brazil's Environmental Ministry (http://siscom.ibama.gov.br/).

Literature Selection Criteria

In May 2018, the Web of Science (WoS) database (Clarivate Analytics, 2017) was used to search for studies outside and inside Brazil and the Brazilian Digital Library of Theses and Dissertations (BDTD) was searched to obtain more studies on Brazil. In these databases the following combined terms were searched: (I) {{“protected area*” AND “(coastal OR marine)”}, OR MPA} AND {“spatial management” OR “spatial planning”}} and (II) {{“protected area*” AND “(coastal OR marine)”}, OR {“MPA” OR “conservation unit*6} AND {“spatial management” OR “spatial planning”} AND Brazil}.

Criteria were adopted to filter studies that focused on the search terms (Table 1). The titles and abstracts of the retrieved articles were screened based on these criteria. The English language was selected for its broad usage in scientific publications (Drubin and Kellogg, 2012), both outside and inside Brazil. Portuguese was selected to increase the number of studies found, due to the amount of literature produced in the Portuguese language (Barata et al., 2014). Title, abstract, and keywords sections of studies in Portuguese were translated into English by the first author in order to obtain results in the English language.

TABLE 1
www.frontiersin.org

Table 1. Inclusion and exclusion criteria used to select the studies for the analyses.

Some words were analyzed as terms while others, as individual words. The words “marine protected area,” for instance, when occurring together, were analyzed as a term. When combined with other words, e.g., “marine habitats” and “study area,” these words were analyzed separately. On the other hand, words such as “spatial” and “management” were analyzed as separate units, because of their independent meaning and possibility to be combined with other words, forming units with different meanings, such as “spatial planning,” “protected area management,” and “management plan.”

Analyses

Overview of all Analyses Performed

The systematic literature review followed the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guide (Moher et al., 2009; Figure 3). The qualitative and quantitative analyses were conducted after the systematization of the studies with the PRISMA report.

FIGURE 3
www.frontiersin.org

Figure 3. Diagram of selection and eligibility criteria, including sample sizes, using the PRISMA report. The PRISMA report was used to filter documents obtained from the databases according to the eligibility criteria.

Quantitative Analyses

The textual content or corpus of title, abstract, and keywords sections of the selected studies was structured after the collection and compilation of all the documents. The frequency of certain key terms in the studies and similarity among these words were analyzed (Abric and Vergès, 1994; Abric, 2003). Lexicometry is a method to measure word frequency in a text (Torruella and Capsada, 2013). A semantic lexicometry analysis was performed (Wasserman and Faust, 1994; Leydesdorff and Welbers, 2011) based on the co-occurrence of words and their interrelationship of coexistence with the nodes represented in the similarity chart (Fronzetti, 2018). Proximity or connectivity is based on distance metrics (Wasserman and Faust, 1994) depending on the frequency and inter-relationship between nodes (Fronzetti, 2018). The results presented are related to the most frequent terms in each analysis, but do not necessarily exhaust all possible relationships that could be derived from the datasets.

Word clouds

Title, abstract, and keywords sections of the studies were also jointly subjected to the word cloud analysis using MAXQDA version 2018.2. Word cloud is the processing of qualitative data that are grouped and organized graphically according to word or expression frequency (Heimerl et al., 2014). Word clouds can serve as a starting point for a more in-depth analysis. Terms shown in the word clouds have a minimum frequency of three hits. Words used in the search were eliminated from the word clouds generated.

Similarity analysis

A similarity analysis shows the spring force7 and the frequency between the words through the classification of the three sections analyzed (titles, abstracts, and keywords). The textual content was evaluated using the discursive occurrences related to similarities and interlinks between the words or terms (Alexandridis et al., 2018). We used the method of graphs (Fruchterman and Reingold, 1991), based on Eades' algorithm (Eades, 1984) and on the spring forces (Kobourov, 2012) to indicate how close or far apart terms are (Fruchterman and Reingold, 1991), how interrelated words are in the discourse (Alexandridis et al., 2018), and the salient themes of each class. Classes are connected to each other by a frequency number that shows the similarity between the words and identifies the discourse structure of the studies analyzed. This similarity analysis is related to the descending hierarchical analysis that we introduce below.

Descending hierarchical analysis

We used the Descending Hierarchical Analysis (DHA) to classify terms in descending order by lexical category (Reinert, 1990). The hierarchical dendrogram is based on the Euclidean distance between words in the text (Fruchterman and Reingold, 1991). It also evaluates the degree of association between the classes of each word (Ratinaud and Marchand, 2012). Since only one document was found for the local case study, this document was incorporated into the Brazilian context for this specific analysis. Three important parameters for interpretation were used: (I) similarity, which refers to the concurrence between the words that are similar; (II) proximity, which indicates the distance between the words (Fruchterman and Reingold, 1991); and (III) frequency, which explains the interrelation between the words in all documents (Ratinaud, 2009; Alexandridis et al., 2018).

The distance between the classes was analyzed using the DHA and a dendrogram chart, where the percentage indicates how many words/terms belong to each class. The words were analyzed using the chi-square (χ2) statistics according to the analysis done within Iramuteq. To clarify this in the Results section, we included a few examples with the statistical results. The other statistics for the words in each class can be found in Data Sheet 2.

Frequency of topics through lexical search

The frequency of topics was established through a lexical search allowed for a more thorough analysis of the all the documents using the “advanced lexical search” tool in MAXQDA. More on MAXQDA is explained in section Software Used.

Specific topics approached in each study were identified, including the referenced bibliography. The qualitative categorization was based on the search terms, according to hits (number of times the search term was found) and to the number of documents where these search terms were found. Search terms relate to frequent topics in the literature on MSP and MPAs. A list of search terms was created based on the authors' familiarity with the literature on these two topics.

Software Used

Two software packages were used for the analyses: MAXQDA and Iramuteq (Interface de R pour les Analyses Multidimensionnelles de Textes et de Questionnaires) (Table 2). These tools were used to represent the structure of discourse on spatial planning studies in order to map the studies and their scientific cognitive structure through the landscape of bibliometric cartography (van Raan, 1996). The analyses were selected from each package based on the availability of each analysis and the easiness of interpretation of the visualized results.

TABLE 2
www.frontiersin.org

Table 2. Overview of the analyses performed, with the systematization of documents according to the search database and the type of analysis for each spatial context (international, national, and local).

MAXQDA is a license-based tool that uses the coding of data as a starting point for qualitative and mixed-methods analyses (Oliveira et al., 2016). Iramuteq is an open-access, qualitative analysis tool which is not based on the codification of texts but rather analyzes segments of the texts through tests such as the descending hierarchical classification, the similarity analysis, and word clouds (Souza et al., 2018). It offers different ways of statistically analyzing qualitative data (Ramos et al., 2019), since it is developed in the Python language and uses functionalities provided by the statistical software R (Souza et al., 2018).

The textual corpus was analyzed through coded segments of the documents using MAXQDA. An analysis of the frequency of the codes used in relation to the contexts was produced, as well as a lexical search on study topics (section Word clouds). MAXQDA was also used to code studies selected for the content analysis into thematic categories (section Similarity analysis).

Additionally, Iramuteq was used to analyze the textual corpus derived from the publications (Ratinaud, 2009). This tool produces a statistical map of a textual corpus from the frequency of words or lexicometry analyses based on chi-square statistics (Ratinaud, 2009). The titles, abstracts, and keywords sections of the studies were analyzed in the Iramuteq for each of the spatial contexts considered. Table 2 shows the analysis performed by database search and spatial contexts, highlighting the software used for each analysis.

Although some databases have interesting analytical tools such as the tree maps and bar charts on WoS, the programs we used here have a wider range of descriptive and inferential statistical tools to analyze qualitative data. MAXQDA, for example, is considered user-friendly, while Iramuteq is intuitive (Oliveira et al., 2016). The word cloud analysis, for instance, a way of presenting the frequency of the words in the documents, was carried out with MAXQDA due to its more appealing presentation of the results.

Results

Quantitative Analyses

General Characteristics

Initially, the search yielded one, 28, and 190 studies for the local case study, for studies in, and outside Brazil, respectively. After applying inclusion and exclusion criteria, a total of 111 studies done outside Brazil, 16 in Brazil, and one for the local case study remained to be analyzed, with publication years ranging from 2003 to 2017 (Table 3).

TABLE 3
www.frontiersin.org

Table 3. Studies selected.

Word Frequency Clouds

The frequency of the words in the title, abstract, and keywords of each study was analyzed (see Data Sheet 1). Studies outside Brazil (Figure 4A) most frequently contain the word “conservation,” “species,” “fisheries,” and “fishing.” In the titles of the Brazilian studies (Figure 4B), the terms most frequently mentioned are “conservation,” “environmental,” “fishing,” “local,” and “use.” The local study (Figure 4C) has among its most frequently mentioned terms “tourism,” “extractive reserve,” and “Caeté-Taperaçu,” which are all terms directly related to the protected area that is the research site for this specific study. Some words observed with greater frequency (larger size) are similar for studies outside and in Brazil, such as “conservation” and “fishing,” while the local case study leans toward “sustainability” and “sustainable.”

FIGURE 4
www.frontiersin.org

Figure 4. Words with the highest frequencies in the titles of (A) studies outside and (B) in Brazil, and (C) for the local case study. Words/terms are represented in clouds based on their frequency in the studies for the three spatial contexts (international, national, and local). The words with the largest font size are most frequently mentioned.

Similarity Analysis

Five classes compose the words for studies outside Brazil (Figure 5), where the most frequent words are “plan,” “management,” and “conservation.” The term “marine protected area” should be read as one single word, while “spatial” and “management” are two different words that have a relationship to one another. On the one hand, “marine protected area” is related to “stakeholder,” “process,” “plan,” and “network.” On the other hand, “management” is related to the “spatial,” and “ecosystem.” This group (yellow) is related to the red group, i.e., the studies on spatial management relate to the benefits of the fishery activity. The distance values between the words, based on frequency, can be found in Data Sheet 2.

FIGURE 5
www.frontiersin.org

Figure 5. Similarity analysis of studies outside Brazil, showing the formation of five classes of words/terms. The numbers represent the proximity between one word and a second word which is closest to the first one. The number indicates the distance between the words overall, showing their relationship in terms of proximity to each other. These words are interconnected by frequency, based on the theory of graphs and networks. The colors represent the classes, which were established according to the proximity of the words in the texts. Also, the largest words are the most frequently mentioned in the studies. This similarity analysis is related to the DHA in Figure 8.

Five classes compose the words of the studies in Brazil (Figure 6). These studies discuss more frequently “conservation,” “management,” and “environmental.” The words “social” and “participation” (yellow group) have a greater proximity value with “conservation” of “biodiversity” in Brazil. On the other hand, the most frequent word in the lilac class, “management,” is related to “relationship,” while “conflict” is related to “area” and “zone” in the red class. “Brazil” is connected, in a direct way, to “biodiversity,” and in an indirect way, to “participation” and “social.”

FIGURE 6
www.frontiersin.org

Figure 6. Similarity analysis of studies in Brazil (local case study excluded). The numbers represent the proximity, expressed as the distance between the words based on frequency and similarity. The largest words are the most frequently mentioned. These words are interconnected by frequency, based on the theory of graphs and networks. The colors represent the classes, which were established according to the proximity of the words in the texts. This similarity analysis is related to the DHA in Figure 8.

Brazilian studies also bring the term “conflict” in combination with “fish” and zone. “Management” and “plan” relate to “local” and “knowledge,” while also including, but apparently with smaller frequency, “social” and “participation.”

Unlike the other two contexts, the analysis of similarity of the one relevant study on the local case study presents only three classes (Figure 7). The structure of the discourse in this study presents the word “tourism” (green group) as most frequently occurring and also as related to “extractive reserve” (blue group). “Caeté-Taperaçu” is an “extractive reserve.”

FIGURE 7
www.frontiersin.org

Figure 7. Similarity analysis of local case study text. The numbers represent the proximity, and indicate the distance between the words based on frequency and similarity. The largest words are most frequently mentioned. These words are interconnected by frequency, based on the theory of graphs and networks. The colors represent the classes, which were established according to the proximity of the words in the texts. This similarity analysis is related to the DHA in Figure 8.

Descending Hierarchical Analysis (DHA)

For studies outside Brazil (Figure 8A), three classes were identified, the Brazilian studies (including the local case study) (Figure 8B) present five classes.

FIGURE 8
www.frontiersin.org

Figure 8. Semantic classes of studies (A) outside and (B) in Brazil (including the local case study for this specific analysis). The classes are divided according to the proximity of the words in the studies. These classes are based on the cluster analysis that uses the distance between the words in the text to define similarities or differences. The dendrogram represents the grouping based on this distance between the words.

The words in class 1 (44%) are closest to those in class 2 (16.6%), and these two classes are significantly different from class 3 (39.4%) The results of the statistical analyses can be found in Data Sheet 2. The red and green classes, e.g., “management” (χ2 = 47.28, p = 0.0001), “conservation,” “plan,” “initiatives” (χ2 = 105.2, p = 0.0001), and “stakeholder” refer to the management dimension of spatial planning research. The blue class, e.g., “fish,” “population,” “species,” “abundance,” and “model,” refers to the biological and ecological dimensions of the spatial planning research on MPAs.

Studies in Brazil form different classes of terms and words (Figure 8B). The green class, e.g., “practice,” “alternative,” and “fisherman” are closest to red class, e.g., “conflict,” “fisher,” and “actor.” The brown class, e.g., “protect” and “participation” are closest to blue class, e.g., “project.” The lilac class contains words such as “legal,” “development,” and “GIS”8.

All the classes are interrelated in varying degrees, for example, classes 3 and 1, which relate to social dimensions. Classes 2 and 4 are closely related to one another and also relate to management, while class 5 relates to the zoning, for example, by using GIS tools to establish zones.

Frequency of Topics Through Lexical Search

The lexical search identified the terms related to fisheries as the most frequent ones for studies both outside (7,382 hits in 111 studies searched, or an average of ~66 hits/study) and in Brazil (5,877 hits in 16 studies searched, or an average of ~367 hits/study), as well as for the local case study (110 hits for one study searched). Other high frequency terms can be found in Table 4.

TABLE 4
www.frontiersin.org

Table 4. Percentage of documents that contain each groups of search terms, according to the lexical analysis for the three spatial contexts, for the top 5 search terms regarding the number of hits (appearances) for each group of search terms, considering all contexts together.

Furthermore, the lexical search identified missing research topics (Table 5). Further details on the results for this analysis can be found in Data Sheet 3.

TABLE 5
www.frontiersin.org

Table 5. Percentage of documents that contain each group of search terms, according to the lexical analysis for the three spatial contexts for the bottom 5 search terms regarding the number of hits (appearances) for the each group of search terms, considering all contexts together.

Discussion

This systematic review identifies studies on spatial planning in MPAs and, specifically, compares and contrasts studies performed outside and in Brazil. We identified studies related to spatial management in different spatial contexts and provide a combination of systematic review and meta-analysis, with a qualitative and quantitative approach (Impellizzeri and Bizzini, 2012). A list of all titles can be found in Data Sheet 2, as well as the context of each study, the database where it was found, and its original language.

The Context Outside Brazil

The relationship between ecological and socioeconomic aspects is evidenced by the connection of spatial planning to fishing. Research on MPAs involves aspects of networks, planning, design, and stakeholders. Spatial management in general, not necessarily linked to protected areas, relates to issues of scale, tools, and approaches, and, as expected, to MSP. Species and habitats are related to distribution and range, probably due to the importance of their distribution for MSP and zone in general, with a focus on coral reefs. The term “conservation” is usually linked to biodiversity.

Some studies focus on spatial prioritization. One study introduces a framework for spatial prioritization as an alternative to conservation planning tools (Teh et al., 2013). This study specifically mentions zoning strategies, such as the implementation of no-take zones (Mangubhai et al., 2015; Martín et al., 2015). Other studies rely on prioritization software. One of them uses Marxan to build a new zoning plan for the current MPAs in the Canary Islands and highlights the need for a rezoning of these areas (Martín et al., 2015). Marxan is an algorithm designed to help decision-makers find solutions to conservation planning problems (Ball et al., 2009). Marxan also assisted the distribution of biodiversity, for example, defining zones of fish conservation as an important tool for spatial planning success of MPAs (Haupt et al., 2017). Another study uses Marzone with socioeconomic criteria and concludes that the final zoning plans recognize community use and governance of resources, maximize equity and access to traditional fishing grounds, and better support long-term food security and livelihoods of local communities (Mangubhai et al., 2015). Marzone is a prioritization tool in the Marxan family. It allows for geographic areas to be assigned to specific zones, each with its own set of actions, objectives and constraints (Ball et al., 2009). Besides algorithms such as Marxan and Marzone, spatial modeling can also be used as a planning tool (Pillans et al., 2014).

Spatial modeling of seabirds also serves to represent areas of intensive use and is applied to identify solutions for MSP and spatial management of MPAs (Perrow et al., 2015). Conservation of pelagic biodiversity, for example, needs innovative methods to reach conservation targets related to marine planning, such as modeling of data in a temporal context (Grantham et al., 2011). Such modeling should integrate supporting processing such as links to nearby systems and their elements (Guidetti et al., 2013). The spatial-temporal modeling of corals showed the areas with the highest conservation priority to be included in MPA planning (Makino et al., 2014). Spatial planning is also a topic in studies on historical modeling with climatic projections in space-time scenarios to identifying the changes and disturbances of an MPA (Levy and Ban, 2013). The changes and vulnerability of the exclusive economic zone through spatial analysis are also important to the decision making in risk management (Katsanevakis et al., 2011). Therefore, MPA management includes modeling studies that identify the resilience of ecosystems to climate change by identifying the priority and exclusion zones for spatial planning in the future (Davies et al., 2016). Connectivity strategies for seabird conservation indicate that MPAs are valuable tools for conservation and that spatial protection should be included in the complexity of such systems (Yorio, 2009).

As the results show that research on MPAs outside Brazil emphasizes aspects of MPA stakeholder participation and design. The coastal and marine zone planning process should apply diversified initiative strategies such as stakeholder inclusion to achieve MPA management objectives (Fox et al., 2013) and spatial modeling which includes expert opinion successfully allows the identification of areas for conservation (Wedding et al., 2013). To do this, it is necessary to include the contributions of the stakeholders in the MPAs by analyzing the conflicts among the different sectors and their interests (Lieberknecht and Jones, 2016). For example, a study addresses the evaluation of stakeholder policies and stakeholder views and concerns to verify the MPA's management effectiveness and establish MPA networks (Lu et al., 2014). In another study, a conflict analysis was carried out and the spatial modeling in the MPAs helped the implementation of MPAs (Pecceu et al., 2016). The effectiveness of protected areas can be boosted by a creating a network which has population representation as a design principle (Ban et al., 2014).

Some studies specifically focus on zoning. On the one hand, MPA zoning requires integrating socio-economic and cultural factors to obtain support from communities during implementation. On the other hand, spatial prediction models include zoning studies of biodiversity distribution to represent areas of high conservation need (Schmiing et al., 2014) and to identify areas of conservation priority for interconnected land-sea planning (Klein et al., 2012). In addition, multi-criteria spatial analysis is used to define areas and minimum and maximum sustainability through the socioeconomic evaluation of activities such as fish farming in the MPA (Dapueto et al., 2015). Bio-economic models are used to verify the spatial management according to the distribution of the fishing (Rassweiler et al., 2012). Thus, spatial modeling is employed to indicate zones of exposure to natural phenomena and the zones of greatest impact in the MPAs, in order to increase the resilience and adaptation of these protected areas (Maynard et al., 2016). Finally, the identification of zones, for example, recreation and tourism, can influence the fulfillment of conservation objectives of the MPA and guide the decision-making process (Rees et al., 2010).

A small number of studies have a transnational approach to the MSP discussion and draw relevant conclusions about MSP processes (Kemp et al., 2012; Jones et al., 2016). For example, objectives of spatial management are often very general and poorly defined (Kemp et al., 2012) and MSP is often focused on achieving specific sectorial objectives (Jones et al., 2016). In framing management objectives, many agencies have considered a relatively low spatial level, associated with individual MPAs and adjacent areas (Kemp et al., 2012). MSP processes tend to be complex, fragmented and emergent on an ad hoc basis, rather than cyclical, adaptive, and prescribed on an a priori basis (Jones et al., 2016). Assessment should, however, begin at the time of initial planning for the spatial management (Kemp et al., 2012).

The Brazilian Context

The similarity analyses show that, in Brazil, “social” and “participation” are closely related to “conservation” and “biodiversity.” This is not found in studies outside Brazil. Two studies approach the topic of stakeholder participation (Prestrelo and Vianna, 2016; Ribeiro, 2017), including possible conflicts that emerge in the context of a protected area (Martins, 2012; de Andrade and Soares, 2017). This highlights the importance attributed to local knowledge for the management plan of protected areas. MPAs in Brazil strongly relate to conservation and biodiversity. It also shows that research in Brazil gives some degree of emphasis to sustainable use of resources. The theme “participation” is a frequent one probably because of a political atmosphere that was favorable to, and reflected demands for, an increased social participation of myriad political actors in coastal governance and management during the progressive governments in Brazil from 2003 to 2015 (Glaser et al., in press).

Fisheries emerge as a research topic for both Brazil and other countries, possibly due to an increasing concern to include fisheries in spatial planning processes. Social and territorial changes related to a protected area are also considered in one of the Brazilian studies analyzed (Martins, 2012). To develop a feasible MSP process, use and user conflicts need to be carefully identified, considering all the relevant legislation and the fact that the participation of fishers is crucial for its maintenance and improvement (Prestrelo and Vianna, 2016; Glaser et al., in press).

A couple of studies make concrete recommendations for the zoning of protected areas (Pereira, 2016; Ribeiro, 2017), including proposing zoning strategies according to environmental susceptibility (Araujo, 2008). Compliance with regulations of existing zoning plans (Prestrelo and Vianna, 2016), as well as with general regulations of an MPA (de Andrade and Soares, 2017), are also analyzed. Perceptions of users regarding the implementation and compliance of MPA zoning is reported in a peer-reviewed study that was published immediately after our search in the databases (Glaser et al., 2018). The perceptions on the zoning scheme in this MPA highlight issues of inequity in terms of user access to certain zones that could be caused by spatial management. This study points to a possible rezoning of the MPA that could consider the perceptions gathered and corrected issues identified.

Various other topics are addressed in the studies analyzed, including the mapping of abiotic factors to provide subsidies for zoning (Pereira, 2016), and the proposal of a new approach to including climate change into the planning of protected areas through a gap analysis of marine protected areas (Magris et al., 2015). One study assesses issues in protected area management (Gerhardinger et al., 2011), while other studies include fisheries management (Costa et al., 2016; Prestrelo and Vianna, 2016) and fish biology (Costa et al., 2016).

Local Case Study

The local case study approaches the topics of socio-cultural sustainability and tourism in the Caeté-Taperaçu marine extractive reserve (Freitas, 2013). This study was the only one found in the searched databases. This study addresses the application of tourism on Ajuruteua beach, which is in the buffer zone the Caeté-Taperaçu marine extractive reserve (Abdala et al., 2012). The management plan is a tool of great importance for the inclusion of tourism in this protected area, comprising the support of other stakeholders starting from the formulation of policies to guarantee the participation of the communities (Freitas, 2013). The study also highlights that the study area, a marine extractive reserve, has an important sociocultural dimension. This is expected since management programs in marine extractive reserves are directed at resource sustainability, environmental protection, knowledge, participatory management, and operation of the reserve (Abdala et al., 2012).

In contrast to the national and global contexts, the case study paper does not mention the connection between fishing and spatial planning. It rather emphasizes sustainable use and communities and focuses on the relationship between tourism and the local communities.

Spatial Planning and Management: Comparing the Different Contexts

In Brazil, only two studies recommend zoning in protected areas. While MSP in Brazil is still incipient, we suspect that there are many non-peer-reviewed studies on this topic that are not published in peer-reviewed journals. Such studies in the gray literature were not captured in this study, but will be further analyzed in an upcoming paper. This makes the spatial planning experiences in Brazil less visible to academia and is probably what caused the low number of publications for our local study case. Studies outside and in Brazil deal with “use,” but have a greater focus on “conservation,” and especially abroad, on “species” and “ecosystems.” There are few reviews or comparative studies (26 and 8% of the studies outside and in Brazil, respectively). Such studies would help to draw parallels between the different settings where spatial planning is being evaluated or taking place. This work could be undertaken by one or several collaborative network(s) of researchers and practitioners.

In mangrove ecosystems, for instance, studies on MSP are still incipient, although zoning studies on MPAs, in general, are growing around the world (Rêgo et al., 2016). Brazil is somewhat ahead of the international field: 34 and 50% of the analyzed studies have a focus on spatial management, outside and in Brazil, respectively. Among the studies that deal with the topic of zoning inside a given protected area 23% are outside and in Brazil 31% inside Brazil.

We found only one study for our local MPA related to MSP and management, although the Amazonian coastal area is considered the most protected mangrove region on the planet (Hayashi et al., 2019). This is unexpected, given the high number of studies in the region of this MPA and the fact that it is one of the few MPAs that has a zoning plan. For example, one study is related to the co-management and institutional resilience to assess the adaptations of social-political changes in a MPA (Partelow et al., 2018). Our findings underline that zoning in Brazil is still in its early stages, especially in the blue economy-related marine zoning (Gerhardinger et al., 2019).

Limitations

The absence and presence of publications on spatial planning were affected by the language of search. That is, the Portuguese language was a key factor in the search for studies in Brazil, while English influenced the search for studies both in and outside Brazil. The English language could have overrepresented the number of studies and made others invisible (Mongeon and Paul-Hus, 2016). Although the growth of publications in Brazil has been evident since 2002, Brazilian publications still have little presence abroad due to the language barrier (Barata et al., 2018). Authors in research areas such as the social sciences and humanities publish mainly in Portuguese, although in some areas it is disregarded as a language of knowledge dissemination (Solovova et al., 2018). Similarly, the keywords could have directed the search to find studies on spatial management and protected areas tin the contexts studied, but not studies related to planning effectiveness.

Conclusions

There are few reviews or comparative studies, especially regarding zoning within protected areas, which can help to draw parallels between the different local, national and international settings where spatial planning is being evaluated or taking place. Areas of research on spatial planning are highlighted. When related to MPA research, a strong influence of fisheries is detected. This study used three spatial contexts to assess the status of MSP worldwide and relate it to Brazil. The novelty about this study is the comparison with the reality in Brazil, where “conservation is not on the forefront of spatial planning alone, but rather accompanied by related social aspects, such as “participation” and “user perceptions.”

The methods applied in this study can be replicated elsewhere in order to verify the state of MSP in different countries and they are not necessarily restricted to the coastal and marine realm. The integration of the analyses shown here is an innovative way to present data in a systematic review and can be used to compare and contrast a given issue for different spatial and institutional levels and contexts. This gap could be addressed through a collaborative network of researchers and practitioners.

Data Availability Statement

No datasets were generated or analyzed for this study.

Author Contributions

RB conceptualized the research, searched and compiled the studies analyzed, performed the MAXQDA analyses, and wrote the manuscript. IE searched and compiled the studies analyzed, performed the Iramuteq analyses, and wrote the manuscript. RSLB helped design the study, restructure the analyses and presentation of results, and discuss the results. MG helped restructure the manuscript and discuss the results. All authors contributed to the article and approved the submitted version.

Funding

RB is grateful to CNPq for the scholarship to perform the doctoral research (Process 290055/2014-8). IE is grateful to Laboratório de Ecologia de Manguezal (LAMA) and Organization of American States (OAS) for providing scholarship for postgraduate studies in Brazil. The authors are grateful to the University of Bremen for providing financial support for this open-access publication.

Conflict of Interest

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Acknowledgments

We thank the reviewers for valuable comments on the manuscript.

Supplementary Material

The Supplementary Material for this article can be found online at: https://www.frontiersin.org/articles/10.3389/fmars.2020.00499/full#supplementary-material

Footnotes

1. ^Although most literature refers to “marine” protected areas, coastal protected areas are included in this definition.

2. ^We adopt the definition of scale as the spatial, temporal, quantitative, or analytical dimensions used to measure and study any phenomenon (Gibson et al., 2000), while levels represent the points on a certain scale (Cash et al., 2006; Glaser and Glaeser, 2014). “Level,” as defined here, is often found in the literature as “scale,” especially in terms such as “small-scale.”

3. ^https://www.mar.mil.br/hotsites/amazonia_azul/

4. ^https://www.mma.gov.br/areas-protegidas/cadastro-nacional-de-ucs

5. ^We adopt the term “spatial context” in the sense of geographic, concrete space. We aim to investigate research on MSP and MPAs, and not directly policy-making on these topics. For this reason, we are not interested in institutions related to decision-making. We also purposely avoid the term “level” (as explained above in another footnote) because we do not aim to distinguished research done at the national, state, or municipal level. We are rather interested in the geographic spaces included in each study, whether related to coastal-marine spaces outside or in Brazil, or whether specifically in our study case site.

6. ^We used the term “conservation unit” because it is the literal translation into English of “unidade de conservação,” which is the term most frequently used in Portuguese for “protected area.”

7. ^Spring force is used in network social theory to measure the distance between objects in a text. In this study, the distance between words/terms shows the relationship of meaning in the discourse.

8. ^Geographic Information System (GIS).

References

Abdala, G., Saraiva, N., and Wesley, F. (2012). Plano de manejo da Reserva Extrativista Marinha de Caeté-Taperaçu (PA). Bragança: Instituto Chico Mendes de Conservação da Biodiversidade.

Google Scholar

Abric, J. -C., (ed.). (2003). “La recherche du noyau central et de la zone muette des représentations sociales,” in Méthodes d'étude des représentations sociales (Ramonville-Saint-Agne : Érès), 59–80.

Google Scholar

Abric, J.-C., and Vergès, P. (1994). La Représentation Sociale de la Banque (Etudes et recherches du Gifresh), 50. [Epub ahead of print].

Google Scholar

Abspoel, L., Keijser, X., Warmelink, H., Fairgrieve, R., Ripken, M., Abramic, A., et al. (2019). Communicating maritime spatial planning: the MSP challenge approach. Mar. Policy. doi: 10.1016/j.marpol.2019.02.057. [Epub ahead of print].

CrossRef Full Text | Google Scholar

Alexandridis, K., Takemura, S., Webb, A., Lausche, B., Culter, J., and Sato, T. (2018). Semantic knowledge network inference across a range of stakeholders and communities of practice. Environ. Model. Soft. 109, 202–222. doi: 10.1016/j.envsoft.2018.08.026

CrossRef Full Text | Google Scholar

Araujo, R. T. D. (2008). Zoneamento ecológico-econômico do município de Santa Cruz da Conceição SP: uma proposta conceitual de planejamento para a sustentabilidade local. Programa de Pós-Graduação em Ecologia e Recursos Naturais - PPGERN, UFSCar.

Google Scholar

Ball, I. R., Possingham, H. P., and Watts, M. (2009). Marxan and Relatives: Software for Spatial Conservation Prioritization. Oxford, UK: Oxford University Press. Available online at: https://rune.une.edu.au/web/handle/1959.11/20240 (accessed April 7, 2020).

Google Scholar

Ban, N. C., McDougall, C., Beck, M., Salomon, A. K., and Cripps, K. (2014). Applying empirical estimates of marine protected area effectiveness to assess conservation plans in British Columbia, Canada. Biol. Conserv. 180, 134–148. doi: 10.1016/j.biocon.2014.09.037

CrossRef Full Text | Google Scholar

Barata, G., Caldas, G., Gascoigne, T., Barata, G., Caldas, G., and Gascoigne, T. (2018). Brazilian science communication research: national and international contributions. Anais da Academia Brasileira de Ciências 90, 2523–2542. doi: 10.1590/0001-3765201720160822

PubMed Abstract | CrossRef Full Text | Google Scholar

Barata, R., Aragão, E., Sousa, L. E. P. F. D., Santana, T. M., Barreto, M. L., Barata, R. B., et al. (2014). The configuration of the Brazilian scientific field. Anais da Academia Brasileira de Ciências 86, 505–521. doi: 10.1590/0001-3765201420130023

PubMed Abstract | CrossRef Full Text | Google Scholar

Bennett, N. J., and Dearden, P. (2014). From measuring outcomes to providing inputs: Governance, management, and local development for more effective marine protected areas. Mar. Policy 50, 96–110. doi: 10.1016/j.marpol.2014.05.005

CrossRef Full Text | Google Scholar

Brazil (2000). Lei No 9.985/2000. Available online at: http://www.planalto.gov.br/ccivil_03/leis/l9985.htm (accessed August 10, 2019).

Google Scholar

Casemiro, M. B., Barra, O. A., Matos, F. D. O., and Vasconcelos, F. P. (2018). Planejamento ambiental costeiro no brasil: um olhar crítico sobre o Projeto Orla. InterEspaço: Revista de Geografia e Interdisciplinaridade 4, 67–89. doi: 10.18764/2446-6549.v4n14p67-89

CrossRef Full Text | Google Scholar

Cash, D., Adger, W. N., Berkes, F., Garden, P., Lebel, L., Olsson, P., et al. (2006). Scale and cross-scale dynamics: governance and information in a multilevel world. Ecol. Soc. 11:8. doi: 10.5751/ES-01759-110208

CrossRef Full Text | Google Scholar

Costa, M. D. P., Possingham, H. P., and Muelbert, J. H. (2016). Incorporating early life stages of fishes into estuarine spatial conservation planning. Aquat Conserv. 26, 1013–1030. doi: 10.1002/aqc.2584

CrossRef Full Text | Google Scholar

da Silva, P. P. (2004). From common property to co-management: lessons from Brazil's first maritime extractive reserve. Mar. Policy 28, 419–428. doi: 10.1016/j.marpol.2003.10.017

CrossRef Full Text | Google Scholar

Dapueto, G., Massa, F., Costa, S., Cimoli, L., Olivari, E., Chiantore, M., et al. (2015). A spatial multi-criteria evaluation for site selection of offshore marine fish farm in the Ligurian Sea, Italy. Ocean Coastal Manag. 116, 64–77. doi: 10.1016/j.ocecoaman.2015.06.030

CrossRef Full Text | Google Scholar

Davies, H. N., Beckley, L. E., Kobryn, H. T., Lombard, A. T., Radford, B., and Heyward, A. (2016). Integrating climate change resilience features into the incremental refinement of an existing marine park. PLoS ONE 11:e0161094. doi: 10.1371/journal.pone.0161094

PubMed Abstract | CrossRef Full Text | Google Scholar

de Andrade, A. B., and Soares, M. D. (2017). Offshore marine protected areas: Divergent perceptions of divers and artisanal fishers. Mar. Policy 76, 107–113. doi: 10.1016/j.marpol.2016.11.016

CrossRef Full Text | Google Scholar

Diegues, A. (1995). Povos e mares: Leituras em sócio antropologia marítima. 1st Edn. São Paulo: Núcleo de Apoio à Pesquisa sobre Populações Humanas e Áreas Úmidas Brasileiras.

Google Scholar

Diegues, A. (2008). The Myth of Untamed Nature in the Brazilian Rainforest. 5th Edn. São Paulo: Research Center on Human Population and Wetland.

Google Scholar

Domínguez-Tejo, E., Metternicht, G., Johnston, E., and Hedge, L. (2016). Marine Spatial Planning advancing the ecosystem-based approach to coastal zone management: a review. Mar Policy 72, 115–130. doi: 10.1016/j.marpol.2016.06.023

CrossRef Full Text | Google Scholar

Drubin, D. G., and Kellogg, D. R. (2012). English as the universal language of science: opportunities and challenges. Mol. Biol. Cell. 23:1399. doi: 10.1091/mbc.e12-02-0108

PubMed Abstract | CrossRef Full Text | Google Scholar

Dudley, N. (2008). Guidelines for Applying Protected Area Management Categories. Gland: IUCN. doi: 10.2305/IUCN.CH.2008.PAPS.2.en

CrossRef Full Text | Google Scholar

Eades, P. (1984). A heuristic for graph drawing. Congres. Numerantium 42, 149–160.

Google Scholar

Ehler, C., and Douvere, F. (2009). Marine Spatial Planning: A Step-by-Step Approach Toward Ecosystem-Based Management. Intergovernmental Oceanographic Commission and Man and the Biosphere Programme. Unesco.

Google Scholar

Eyzaguirre, I. A. L., and Fernandes, M. E. B. (2018). “Environmental governance as a framework for mangrove sustainability on the Brazilian Amazon Coast,” in Threats to Mangrove Forests, eds C. Makowski and C. W. Finkl (Bragança: Springer International Publishing), 699–715.

Google Scholar

Fernandes, M. E. B., Oliveira, F. P., and Eyzaguirre, I. A. L. (2018). “Mangroves on the Brazilian Amazon Coast: Uses and Rehabilitation,” in Threats to Mangrove Forests: Hazards, Vulnerability, and Management Coastal Research Library, eds C. Makowski and C. W. Finkl (Cham: Springer International Publishing), 621–635. doi: 10.1007/978-3-319-73016-5_29

CrossRef Full Text | Google Scholar

Fox, E., Poncelet, E., Connor, D., Vasques, J., Ugoretz, J., McCreary, S., et al. (2013). Adapting stakeholder processes to region-specific challenges in marine protected area network planning. Ocean Coastal Manag. 74, 24–33. doi: 10.1016/j.ocecoaman.2012.07.008

CrossRef Full Text | Google Scholar

Freitas, L. L. D. (2013). Sustentabilidade sociocultural e turismo na Reserva Extrativista Marinha de Caeté-Taperaçu. Available online at: http://repositorio.unb.br/handle/10482/14358 (accessed August 9, 2019).

Google Scholar

Fronzetti, A. (2018). The semantic brand score. J. Bus. Res. 88, 150–160. doi: 10.1016/j.jbusres.2018.03.026

CrossRef Full Text | Google Scholar

Fruchterman, T. M. J., and Reingold, E. M. (1991). Graph drawing by force-directed placement. Software Prac. Exp. 21, 1129–1164. doi: 10.1002/spe.4380211102

CrossRef Full Text | Google Scholar

GEF (2012). Marine Spatial Planning in the Context of the Convention on Biological Diversity. Secretariat of the Convention on Biological Diversity and the GEF: Scientific and Technical Advisory Panel.

Google Scholar

Gerhardinger, L. C., Godoy, E. A. S., Jones, P. J. S., Sales, G., and Ferreira, B. P. (2011). Marine protected dramas: the flaws of the brazilian national system of marine protected areas. Environ. Manag. 47, 630–643. doi: 10.1007/s00267-010-9554-7

PubMed Abstract | CrossRef Full Text | Google Scholar

Gerhardinger, L. C., Gorris, P., Gonçalves, L. R., Herbst, D. F., Vila-Nova, D. A., De Carvalho, F. G., et al. (2018). Healing brazil's blue amazon: the role of knowledge networks in nurturing cross-scale transformations at the frontlines of ocean sustainability. Front. Mar. Sci. 4:395. doi: 10.3389/fmars.2017.00395

CrossRef Full Text | Google Scholar

Gerhardinger, L. C., Quesada-Silva, M., Gonçalves, L. R., and Turra, A. (2019). Unveiling the genesis of a marine spatial planning arena in Brazil. Ocean Coastal Manag. 179:104825. doi: 10.1016/j.ocecoaman.2019.104825

CrossRef Full Text | Google Scholar

Gibson, C. C., Ostrom, E., and Ahn, T. K. (2000). The concept of scale and the human dimensions of global change: a survey. Ecol. Econ. 32, 217–239. doi: 10.1016/S0921-8009(99)00092-0

CrossRef Full Text | Google Scholar

Glaser, M, Barboza, R. S. L., Borges, R., Blandtt, L., Gerhardinger, L. C., and Ferreira, B. P. (in press). “Social participation in Brazilian coastal governance management,” in Coastal Management Revisited Towards Sustainable Human-Nature Relations, eds B. Glaeser M. Glaser (Elsevier).

Google Scholar

Glaser, M., and Glaeser, B. (2014). Towards a framework for cross-scale and multi-level analysis of coastal and marine social-ecological systems dynamics. Reg. Environ. Change 14, 2039–2052. doi: 10.1007/s10113-014-0637-5

CrossRef Full Text | Google Scholar

Glaser, M., Gorris, P., Ferreira, B. P., and Breckwoldt, A. (2018). Analysing ecosystem user perceptions of the governance interactions surrounding a brazilian near shore coral reef. Sustainability 10:1464. doi: 10.3390/su10051464

CrossRef Full Text | Google Scholar

Grantham, H. S., Game, E. T., Lombard, A. T., Hobday, A. J., Richardson, A. J., Beckley, L. E., et al. (2011). Accommodating dynamic oceanographic processes and pelagic biodiversity in marine conservation planning. PLoS ONE 6:e16552. doi: 10.1371/journal.pone.0016552

PubMed Abstract | CrossRef Full Text | Google Scholar

Gubbay, S. (2005). Marine Protected Areas and Zoning in a System of Marine Spatial Planning. A discussion paper for WWF-UK. 14.

Google Scholar

Guidetti, P., Notarbartolo-Di-Sciara, G., and Agardy, T. (2013). Integrating pelagic and coastal MPAs into large-scale ecosystem-wide management. Aquat. Conserv. 23, 179–182. doi: 10.1002/aqc.2314

CrossRef Full Text | Google Scholar

Haupt, P. W., Lombard, A. T., Goodman, P. S., and Harris, J. M. (2017). Accounting for spatiotemporal dynamics in conservation planning for coastal fish in KwaZulu-Natal, South Africa. Biol. Conserv. 209, 289–303. doi: 10.1016/j.biocon.2017.02.009

CrossRef Full Text | Google Scholar

Hayashi, S. N., Souza-Filho, P. W. M. Jr., Nascimento, W. R., and Fernandes, M. E. B. (2019). The effect of anthropogenic drivers on spatial patterns of mangrove land use on the Amazon coast. PLoS ONE 14:e0217754. doi: 10.1371/journal.pone.0217754

PubMed Abstract | CrossRef Full Text | Google Scholar

Heimerl, F., Lohmann, S., Lange, S., and Ertl, T. (2014). Word Cloud Explorer: Text Analytics Based on Word Clouds,” in 2014 47th Hawaii International Conference on System Sciences (Waikoloa, HI), 1833–1842. doi: 10.1109/HICSS.2014.231

CrossRef Full Text | Google Scholar

Horta e Costa, B., Claudet, J., Franco, G., Erzini, K., Caro, A., and Gonçalves, E. J. (2016). A regulation-based classification system for marine protected areas (MPAs). Mar Policy 72, 192–198. doi: 10.1016/j.marpol.2016.06.021

PubMed Abstract | CrossRef Full Text | Google Scholar

Impellizzeri, F. M., and Bizzini, M. (2012). Systematic review and meta-analysis: a primer. Int. J. Sports Phys. Ther. 7, 493–503.

PubMed Abstract | Google Scholar

IUCN (2009). Marine Protected Areas: Legislative and Policy Gap Analysis for Fiji Islands. Available online at: https://www.iucn.org/content/marine-protected-areas-legislative-and-policy-gap-analysis-fiji-islands (accessed July 23, 2019).

Google Scholar

IUCN (2012). Guidelines for Applying the IUCN Protected Area Management Categories to Marine Protected Areas. Available online at: https://www.iucn.org/content/guidelines-applying-iucn-protected-area-management-categories-marine-protected-areas-0 (accessed July 22, 2019).

Google Scholar

Jones, P. J. S., Lieberknecht, L. M., and Qiu, W. (2016). Marine spatial planning in reality: Introduction to case studies and discussion of findings. Mar. Policy 71, 256–264. doi: 10.1016/j.marpol.2016.04.026

CrossRef Full Text | Google Scholar

Katsanevakis, S., Stelzenmüller, V., South, A., Sørensen, T. K., Jones, P. J. S., Kerr, S., et al. (2011). Ecosystem-based marine spatial management: review of concepts, policies, tools, and critical issues. Ocean Coastal Manag. 54, 807–820. doi: 10.1016/j.ocecoaman.2011.09.002

CrossRef Full Text | Google Scholar

Kemp, J., Jenkins, G. P., Smith, D. C., and Fulton, E. (2012). “Measuring the performance of spatial management in marine protected areas,” in Oceanography and Marine Biology: An Annual Review, Oceanography and Marine Biology, Vol 50, eds R. N. Gibson, R. J. A. Atkinson, J. D. M. Gordon, and R. N. Hughes (Boca Raton, FL: CRC Press; Taylor & Francis Group), 287–314. doi: 10.1201/b12157-7

CrossRef Full Text | Google Scholar

Kenchington, R. A., and Day, J. C. (2011). Zoning, a fundamental cornerstone of effective Marine Spatial Planning: lessons learnt from the Great Barrier Reef, Australia. J. Coast. Conserv. 15, 271–278. doi: 10.1007/s11852-011-0147-2

CrossRef Full Text | Google Scholar

Klein, C. J., Jupiter, S. D., Selig, E. R., Watts, M. E., Halpern, B., Kamal, M., et al. (2012). Forest conservation delivers highly variable coral reef conservation outcomes. Ecol. Appl. 22, 1246–1256. doi: 10.1890/11-1718.1

PubMed Abstract | CrossRef Full Text | Google Scholar

Kobourov, S. G. (2012). Spring embedders and force directed graph drawing algorithms. arXiv:1201.3011 [cs]. Available online at: http://arxiv.org/abs/1201.3011 (accessed January 23, 2019).

PubMed Abstract | Google Scholar

Leenhardt, P., Low, N., Pascal, N., Micheli, F., and Claudet, J. (2015). “The role of marine protected areas in providing ecosystem services,” in Aquatic Functional Biodiversity, eds A. Belgrano, G. Woodward, and U. Jacob (Kidlington: Elsevier), 211–239. doi: 10.1016/B978-0-12-417015-5.00009-8

CrossRef Full Text | Google Scholar

Levy, J. S., and Ban, N. C. (2013). A method for incorporating climate change modelling into marine conservation planning: an indo-west pacific example. Mar. Policy 38, 16–24. doi: 10.1016/j.marpol.2012.05.015

CrossRef Full Text | Google Scholar

Leydesdorff, L., and Welbers, K. (2011). The semantic mapping of words and co-words in contexts. J. Informetrics 5, 469–475. doi: 10.1016/j.joi.2011.01.008

CrossRef Full Text | Google Scholar

Lieberknecht, L. M., and Jones, P. J. S. (2016). From stormy seas to the doldrums: The challenges of navigating towards an ecologically coherent marine protected area network through England's marine conservation zone process. Mar. Policy 71, 275–284. doi: 10.1016/j.marpol.2016.05.023

CrossRef Full Text | Google Scholar

Lombard, A. T., Dorrington, R. A., Reed, J. R., Ortega-Cisneros, K., Penry, G. S., Pichegru, L., et al. (2019). Key challenges in advancing an ecosystem-based approach to marine spatial planning under economic growth imperatives. Front. Mar. Sci. 6:146. doi: 10.3389/fmars.2019.00146

CrossRef Full Text | Google Scholar

Lu, S.-Y., Shen, C.-H., and Chiau, W.-Y. (2014). Zoning strategies for marine protected areas in Taiwan: case study of gueishan island in Yilan County, Taiwan. Mar. Policy 48, 21–29. doi: 10.1016/j.marpol.2014.03.001

CrossRef Full Text | Google Scholar

Magris, R. A., Heron, S. F., and Pressey, R. L. (2015). Conservation planning for coral reefs accounting for climate warming disturbances. PLoS ONE 10:e0140828. doi: 10.1371/journal.pone.0140828

PubMed Abstract | CrossRef Full Text | Google Scholar

Makino, A., Yamano, H., Beger, M., Klein, C. J., Yara, Y., and Possingham, H. P. (2014). Spatio-temporal marine conservation planning to support high-latitude coral range expansion under climate change. Diversity Distrib. 20, 859–871. doi: 10.1111/ddi.12184

CrossRef Full Text | Google Scholar

Mangubhai, S., Wilson, J. R., Rumetna, L., Maturbongs, Y., and Purwanto. (2015). Explicitly incorporating socioeconomic criteria and data into marine protected area zoning. Ocean Coast. Manag. 116, 523–529. doi: 10.1016/j.ocecoaman.2015.08.018

CrossRef Full Text | Google Scholar

Martín, M., Iman, A., Pezo, E., and Aguilar, P. (2015). Cambios en los modelos de la infraestructura tradicional en dos comunidades de la cuenca baja del río Marañón, Loreto, Perú. Ciencia Amazónica. 5:3. doi: 10.22386/ca.v5i1.85

CrossRef Full Text | Google Scholar

Martins, A. (2012). Entre terra e mar: interfaces no processo de transformação territorial na Área de Proteção Ambiental da Baleia Franca. Programa de Pós-Graduação em Geografia, Universidade Federal de São Carlos.

Google Scholar

Maynard, J. A., Beeden, R., Puotinen, M., Johnson, J. E., Marshall, P., van Hooidonk, R., et al. (2016). Great barrier reef no-take areas include a range of disturbance regimes. Conserv. Lett. 9, 191–199. doi: 10.1111/conl.12198

CrossRef Full Text | Google Scholar

Mendes, A. (2005). “A geomorfologia e sedimentologia,” in Os manguezais da costa norte brasileira, ed M. E. B. Fernandes (São Luis, MA: Fundação rio Bacanga), 8–11.

Google Scholar

MMA and ICMBIO (2018). Atlas dos manguezais do Brasil. Brasília. Projeto Manguezais do Brasil (GEF/Mangue). 179.

Google Scholar

Moher, D., Liberati, A., Tetzlaff, J., and Altman, D. G. (2009). Preferred reporting items for systematic reviews and meta-analyses: the prisma statement. PLoS Med. 6:e97. doi: 10.1371/journal.pmed.1000097

CrossRef Full Text | Google Scholar

Mongeon, P., and Paul-Hus, A. (2016). The journal coverage of Web of Science and scopus: a comparative analysis. Scientometrics 106, 213–228. doi: 10.1007/s11192-015-1765-5

CrossRef Full Text | Google Scholar

Oliveira, M., Bitencourt, C., Zanardo, A., and Teixeira, E. (2016). thematic content analysis: is there a difference between the support provided by the MAXQDA® and NVivo® software packages? Revista de Administração da UFSM 9, 72–82. doi: 10.5902/1983465911213

CrossRef Full Text | Google Scholar

Partelow, S., Glaser, M., Solano Arce, S., Barboza, R. S. L., and Schlüter, A. (2018). Mangroves, fishers, and the struggle for adaptive comanagement: applying the social-ecological systems framework to a marine extractive reserve (RESEX) in Brazil. Ecol. Soc. 23. doi: 10.5751/ES-10269-230319

CrossRef Full Text | Google Scholar

Pecceu, E., Hostens, K., and Maes, F. (2016). Governance analysis of MPAs in the belgian part of the North Sea. Mar. Policy 71, 265–274. doi: 10.1016/j.marpol.2015.12.017

CrossRef Full Text | Google Scholar

Pereira, M. L. M. (2016). Caracterização da paisagem marinha de unidades de conservação marinho-costeiras no Brasil. Programa de Pós-Graduação em Geografia, Universidade Federal de São Carlos.

PubMed Abstract | Google Scholar

Perrow, M. R., Harwood, A. J. P., Skeate, E. R., Praca, E., and Eglington, S. M. (2015). Use of multiple data sources and analytical approaches to derive a marine protected area for a breeding seabird. Biol. Conserv. 191, 729–738. doi: 10.1016/j.biocon.2015.08.031

CrossRef Full Text | Google Scholar

Pillans, R. D., Bearham, D., Boomer, A., Downie, R., Patterson, T. A., Thomson, D. P., et al. (2014). Multi year observations reveal variability in residence of a tropical demersal fish, lethrinus nebulosus: implications for spatial management. PLoS ONE 9:e105507. doi: 10.1371/journal.pone.0105507

PubMed Abstract | CrossRef Full Text | Google Scholar

Pinheiro, H. T., Dario, F. D., Gerhardinger, L. C., Melo, M. R. S., de Moura, R. L., de Reis, R. E., et al. (2015). Brazilian aquatic biodiversity in peril. Science 350, 1043–1044. doi: 10.1126/science.350.6264.1043-a

PubMed Abstract | CrossRef Full Text | Google Scholar

Potts, T., Burdon, D., Jackson, E., Atkins, J., Saunders, J., Hastings, E., et al. (2014). Do marine protected areas deliver flows of ecosystem services to support human welfare? Mar. Policy 44, 139–148. doi: 10.1016/j.marpol.2013.08.011

CrossRef Full Text | Google Scholar

Prestrelo, L., and Vianna, M. (2016). Identifying multiple-use conflicts prior to marine spatial planning: a case study of a multi-legislative estuary in Brazil. Mar. Policy 67, 83–93. doi: 10.1016/j.marpol.2016.02.001

CrossRef Full Text | Google Scholar

Rêgo, I. D. S., Aguiar, L. F. M. C., and Soares, M. D. O. (2016). Environmental zoning and coastal zone conservation: the case of a protected area in Northeastern Brazil. Revista de Gestão Costeira Integrada 16, 35–43. doi: 10.5894/rgci603

CrossRef Full Text | Google Scholar

Ramos, M. G., do Rosário Lima, V. M., and Amaral-Rosa, M. P. (2019). “IRAMUTEQ software and discursive textual analysis: interpretive possibilities,” in Computer Supported Qualitative Research Advances in Intelligent Systems and Computing, eds A. P. Costa, L. P. Reis, and A. Moreira (Cham: Springer International Publishing), 58–72. doi: 10.1007/978-3-030-01406-3_6

CrossRef Full Text | Google Scholar

RAMSAR (2018). RAMSARSites. Available online at: https://www.ramsar.org/wetland/brazil (accessed January 31, 2019).

Google Scholar

Rassweiler, A., Costello, C., and Siegel, D. A. (2012). Marine protected areas and the value of spatially optimized fishery management. Proc. Natl Acad. Sci. U.S.A. 109, 11884–11889. doi: 10.1073/pnas.1116193109

PubMed Abstract | CrossRef Full Text | Google Scholar

Ratinaud, P. (2009). IRAMUTEQ: Interface de R pour les Analyses Multidimensionnelles de Textes et de Questionnaires. Available online at: http://www.iramuteq.org/ (accessed January 23, 2019).

Google Scholar

Ratinaud, P., and Marchand, P. (2012). Application de la méthode ALCESTE à de ≪gros≫ corpus et stabilité des ≪mondes lexicaux≫: Analyse du ≪CableGate≫ avec IraMuTeQ. Paris: Liège.

Google Scholar

Rees, S. E., Rodwell, L. D., Attrill, M. J., Austen, M. C., and Mangi, S. C. (2010). The value of marine biodiversity to the leisure and recreation industry and its application to marine spatial planning. Mar. Policy 34, 868–875. doi: 10.1016/j.marpol.2010.01.009

CrossRef Full Text | Google Scholar

Reinert, M. (1990). ALCESTE: Une méthodologie d'analyse des données textuelles et une application: aurélia de gérard de nerval. Bull. Méthodol. Sociol. 26, 24–54. doi: 10.1177/075910639002600103

CrossRef Full Text | Google Scholar

Ribeiro, L. P. (2017). A importância da participação social na elaboração de planos de manejo de unidades de conservação marinhas: O estudo de caso da APA marinha do Litoral Norte de São Paulo. Available online at: http://w2.files.scire.net.br/atrio/jbrj-mpenbt_upl/THESIS/91/a_importancia_da_participacao_social_na_elaboracao_de_planos_de_manejo_de_ucs_marinhas__o_estudo_de_caso_da_apamln._1_20171207162806676.pdf (accessed June 1, 2018).

Google Scholar

Schmiing, M., Diogo, H., Santos, R. S., and Afonso, P. (2014). Assessing hotspots within hotspots to conserve biodiversity and support fisheries management. Marine Ecol. Prog. Ser. 513, 187–199. doi: 10.3354/meps10924

CrossRef Full Text | Google Scholar

Solovova, O., Santos, J. V., and Veríssimo, J. (2018). Publish in english or perish in portuguese: struggles and constraints on the semiperiphery. Publications 6:25. doi: 10.3390/publications6020025

CrossRef Full Text | Google Scholar

Souza Filho, P. W. (2005). Costa de manguezais de macromaré da Amazônia> cenários morfológicos, mapeamento e quantificação de áreas usando dados de sensores remotos. Revista Brasileira de Geofísica 23, 427–435. doi: 10.1590/S0102-261X2005000400006

CrossRef Full Text | Google Scholar

Souza, M. A. R. de., Wall, M. L., Huler, A. C. de M. C., Lowen, I. M. V., and Peres, A. M. (2018). The use of IRAMUTEQ software for data analysis in qualitative research. Revista da Escola de Enfermagem da USP 52:e03353. doi: 10.1590/s1980-220x2017015003353

PubMed Abstract | CrossRef Full Text | Google Scholar

Strickland-Munro, J., Kobryn, H., Brown, G., and Moore, S. A. (2016). Marine spatial planning for the future: Using Public Participation GIS (PPGIS) to inform the human dimension for large marine parks. Mar. Policy 73, 15–26. doi: 10.1016/j.marpol.2016.07.011

CrossRef Full Text | Google Scholar

Teh, L. C. L., Teh, L. S. L., and Jumin, R. (2013). Combining human preference and biodiversity priorities for marine protected area site selection in Sabah, Malaysia. Biol. Conserv. 167, 396–404. doi: 10.1016/j.biocon.2013.09.002

CrossRef Full Text | Google Scholar

Tonin, S. (2018). Citizens' perspectives on marine protected areas as a governance strategy to effectively preserve marine ecosystem services and biodiversity. Ecosyst. Serv. 34, 189–200. doi: 10.1016/j.ecoser.2018.03.023

CrossRef Full Text | Google Scholar

Torruella, J., and Capsada, R. (2013). Lexical statistics and tipological structures: a measure of lexical richness - sciencedirect. Proc. Soc. Behav. Sci. 95, 447–454. doi: 10.1016/j.sbspro.2013.10.668

CrossRef Full Text | Google Scholar

van Raan, A. (1996). Advanced bibliometric methods as quantitative core of peer review based evaluation and foresight exercises. Scientometrics 36, 397–420. doi: 10.1007/BF02129602

CrossRef Full Text | Google Scholar

Wasserman, S., and Faust, K. (1994). Social Network Analysis: Methods and Applications. New York, NY: Cambridge University Press. doi: 10.1017/CBO9780511815478

CrossRef Full Text | Google Scholar

Wedding, L. M., Friedlander, A. M., Kittinger, J. N., Watling, L., Gaines, S. D., Bennett, M., et al. (2013). From principles to practice: a spatial approach to systematic conservation planning in the deep sea. Proc. Roy. Soc. B 280, 20131684. doi: 10.1098/rspb.2013.1684

PubMed Abstract | CrossRef Full Text | Google Scholar

Yorio, P. (2009). Marine protected areas, spatial scales, and governance: implications for the conservation of breeding seabirds. Conserv. Lett. 2, 171–178. doi: 10.1111/j.1755-263X.2009.00062.x

CrossRef Full Text | Google Scholar

Keywords: fisheries, marine spatial planning (MSP), spatial management, stakeholders, systematic review

Citation: Borges R, Eyzaguirre I, Barboza RSL and Glaser M (2020) Systematic Review of Spatial Planning and Marine Protected Areas: A Brazilian Perspective. Front. Mar. Sci. 7:499. doi: 10.3389/fmars.2020.00499

Received: 30 September 2019; Accepted: 03 June 2020;
Published: 03 September 2020.

Edited by:

Lyne Morissette, M – Expertise Marine, Canada

Reviewed by:

Liliana Poggio Colman, University of Exeter, United Kingdom
Andrew M. Fischer, University of Tasmania, Australia

Copyright © 2020 Borges, Eyzaguirre, Barboza and Glaser. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

*Correspondence: Rebecca Borges, rebecca.borges@leibniz-zmt.de