ISLAND GEOGRAPHY SHAPING MARITIME SPACE IN MACARONESIA

This paper explores how geography shapes human uses of the maritime space along the Atlantic archipelagic territories of Macaronesia, a biogeographical region that includes the archipelagos of the Azores, Madeira, Selvagens, Canary Islands and Cape Verde. The way specific geographic characteristics of these islands influence and even determine maritime uses and activities is analyzed in a three-layers approach in the following order: socio-economic analysis, sectorial analysis and uses and activities analysis. The biophysical and geographical characteristics of each archipelago will be considered throughout the analysis, highlighting the common aspects and peculiarities between each region. After a comprehensive overview of the main economic activities, the discussion suggests that certain specificities need to be taken into account in maritime spatial planning processes when planning and managing human uses at sea, to promote the sustainable development of local communities, particularly in archipelagic regions.


Introduction
The ocean embraces many populated islands and archipelagic countries and territories, with such a diverse mix of traits and characteristics that make each one unique. However, despite their particular differences or specificities, insular territories and the human populations therein have in common a strong link and dependence on the ocean and its resources, as major sources of sustenance, income, and cultural identity (Vince, Brierley, Stevenson & Dunstan, 2017;Greenhill, 2018).
Insularity, often linked to remoteness, poses many challenges to islanders, including limited land-based resources (including space available for infrastructure), ecological fragility and vulnerability to economic and/or environmental forcing factors, potential over exploitation of local resources, sea level rise and other impacts of climate (and environmental) change (such as pollution) (Greenhill, 2018). Demography, quite often translating into small and/or declining populations, is a particular challenge due to small domestic markets and potentially limited 'social capital' (Greenhill, 2018). Furthermore, the geographic characteristics of most islands or archipelagic territories are a key factor determining the use of surrounding maritime space by human populations, including aspects such as geology, topography, bathymetry, exposure to winds and waves, and geographic location, which further influences and shapes local climate.
These information assist the maritime spatial planning (MSP) process by increasing the overall understanding of the natural characteristics of the maritime space, from which human uses will essentially derive from. Essentially, most economic activities on sea rely upon at least one biophysical asset or upon the geographical context of the region. Altogether, they are subsidy in order to carry out a sustainable MSP process. In this sense, Zaucha (2012) lists relevant information that should be acquired, such as hydrological, biological and geomorphological processes, the coexistence of different sea uses and the intensity of their interactions, among others. This paper explores how geography shapes human uses of the maritime space along the Atlantic archipelagic territories of Macaronesia, a biogeographical region including the archipelagos of the Azores, Madeira, Selvagens, Canary Islands and Cape Verde (Fernandez-Palacios et al., 2011). The way specific geographic characteristics of these islands influence and even determine maritime uses and activities is analyzed, as well as how these specificities need to be taken into account in MSP processes when planning and managing human uses at sea.

Geobiophysical characterization of Macaronesia
The term Macaronesia (Gr. Makarios, blissful + nessos, islands), coined circa 1835, is attributed to English botanist Phillip Barker Webb (Fernandez-Palacios et al., 2011) to describe the region that encompasses the Atlantic archipelagos of the Azores, Madeira, Selvagens, Canary Islands and Cape Verde (Fig. 1, Tables 1 and 2). These archipelagos share similar geomorphological traits. They are all originally volcanic and are thought to be the result of several geologic hotspots (Carracedo, 2001). Topography and geomorphology varies within Macaronesia, with an array of landscapes ranging from deserts in arid and rocky areas to humid mountains and evergreen broadleaf forests; from low lying to mountainous islands with altitudes reaching over 2000 meters; and from very steep cliff areas to lower plateaus with numerous gorges. The islands also present prominent river valleys in eroded volcanic rocks as well as vast lava flows and active volcanoes (Condé et al., 2009).
Macaronesia has a unique biogeography. All native flora and fauna is believed to have reached the archipelagos via long-distance dispersal from adjacent continental areas (Whittaker & Fernández-Palacios, 2007) or adjacent archipelagos (Domingues et al., 2008). Although the marine biotas of the different archipelagos are interconnected via oceanic currents, they belong to different marine provinces: while the Azores, Madeira and Canary Islands belong to the Lusitanian province in the Temperate Northern Atlantic Realm, Cape Verde is within the West African Transition province H. Calado, M. Caña Varona, J.L. Suarez de Vivero, F. Moniz, F. Halim, D. Gabriel, C. Hipólito, E. Menini, D. Kramel, M. Vergílio, M.A. Ferreira

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in the Tropical Atlantic Realm (Spalding et al., 2007;Tuya & Haroun 2009). The Portuguese archipelago of the Azores is located along the Mid Atlantic Ridge on three tectonic plates: European, African and American. It is composed of 9 islands divided in three groups totaling 2322 km 2 . The Azores is the most isolated archipelago of Macaronesia. The island of São Miguel is located 1369 km west of mainland Portugal and the island of Corvo is located 1900 km east of Canada (Newfoundland). The archipelago is characterized by high average depths (1000-2000 m) between its islands except for Faial and Pico islands that are separated by 20 to 50 m depths (Azevedo, Macedo & Mendonça, 2016;Interreg, 2017).
The Portuguese archipelago of Madeira lies on the African Plate, circa 660 km west of Morocco. It is the smallest archipelago of European Macaronesia (802 km 2 of land surface). It includes two main islands, Madeira and Porto Santo, and the uninhabited Desertas Islands (Chão, Deserta Grande and Bugio).
The Selvagens archipelago comprises two subarchipelagos: a northeast group that includes Selvagem Grande, a plateau 100 m above the ocean surface with plunging cliffs (Quartin Graça, 2013) and three small islets (da Terra, do Mar and Sinho), and a southwest group with Selvagem Pequena and eight islets (de Fora, Alto, Comprido, Redondo, Pequeno, Grande, do Sul and do Norte). The archipelago has a total land area of 3.6 km 2 . Due to its narrow continental shelf, the  surrounding sea is very deep, mostly between 3500-4000 m with a maximum depth of 5400 m (Interreg, 2017). The archipelago is integrated in the Autonomous region of Madeira, and because of its particular features (very small land area and limited resources), it is only inhabited by a very small permanent population of park rangers and occasional visitors (Quartin Graça, 2013). The Canary Islands is the biggest archipelago of Macaronesia (7447 km 2 ) and the closest to the African continent (Fuerteventura Island is located 96 km west of Western Sahara). It is composed by two provinces and seven main islands (Madruga, Wallenstein & Azevedo, 2016). Steep slopes plunging to 1000 m depths define the seafloor bathymetry around the archipelago. The deepest waters are located in the western part, while in the eastern areas depths do not exceed 2500 me-  Vivero, 2011;Interreg, 2017). The Republic of Cape Verde is an African archipelagic nation located 570 km off the coasts of Senegal at the same latitude of the promontory Cape Verde from which it received its name (Ramalho, 2011). It is the only territory of Macaronesia not included in the European Union. It is the second largest archipelago in Macaronesia (4033 km 2 ) and it is formed by 10 main islands and eight minor islets. Rising from a dome-shaped ocean floor, the average depth below sea level is around 3000 meters (Duarte, 2013).

Methodology
The present study aims to analyse and provide insights in how the geographical characteristics in the Macaronesia influences the uses and activities and furthermore the MSP process. Therefore, an analysis of the main geographical features and the most relevant uses and activities are reviewed according to the methodology shown in Figure 2, ensuring that all sectors and characteristics are addressed in this analysis.
This analysis can be understood in three stages. First, an overall economic analysis is conducted to understand the economic context of each archipelago. Second, the importance of each sector (primary, secondary, tertiary) will be analysed in terms of what uses and activities are more prominent economically and culturally for each archipelago. Last, each of the uses and activities (the nine sectors of blue economy) will be addressed individually in terms of the main challenges for the proper implementation of MSP and Ecosystem Based Management (EBM) in the islands.

Socio-economic context of Macaronesia
More than three million people inhabit Macaronesia. The Canary Islands is the most populated archipelago with a total population surpassing two million inhabitants. The Canary Islands and Madeira have the highest population densities (circa 300 inhabitants/km 2 ), while the Azores is the least populated archipelago (approximately 250000 inhabitants) and has the lowest population density (106 inhabitants/km 2 ) ( Table 3). The population is heterogeneously distributed among the islands of each archipelago, concentrating in a few islands: 56% of the Azorean population lives in São Miguel, 55% of the population of Cape Verde lives in the island of Santiago, and 41% of the population of the Canary Islands lives in Grand Canary Island. This high concentration in the main islands creates some social issues, along with immigration and high unemployment rates.
The standard of living in the islands (Gross Domestic Product -GDP per capita) varies significantly between European Macaronesia and Cape Verde. GDP per capita in the three EU archipelagos is over €15000, but below the EU average of €29121 (EC, 2018a). Cape Verde has the lowest GDP per capita in Macaronesia (€3000), but, conversely, it has the lowest unemployment rate (10.7% in 2010) (Nshimyumuremyi, 2018). The Canary Islands have the highest unemployment rate (29.1%), affecting especially women and young people (less than 25 years old). This figure has improved in recent years, but it is still above the national Spanish and EU average of 18.6% and 8.1%, respectively (EC, 2018a). Madeira and the Azores had a severe increase in their unemployment rates in the years following the global economic crisis.

Sectorial analysis of the Macaronesia economy
The primary sector is not very developed and declining in Macaronesia due to the rugged topography, climatic factors, and water scarcity. These factors limit the space available for agriculture, the average size of farms, their access and mechanization. Nevertheless, small-scale subsistence agriculture production is present in Cape Verde, Madeira, and Canary Islands. Contrariwise, in the Azores, agriculture is one of the mainstays of the economy, which, along with fisheries, contributes with 10% of Gross Value Added (GVA).
The secondary sector remains generally undeveloped and is dominated by traditional industries, mainly food, beverages, and tobacco. It faces difficulties linked to low internal demand, the remoteness of the archipelagos and their dependence on external supply that increases produc- tion costs compared to the mainland. The construction industry is subject to difficulties as well as it is dependent on the evolution of other sectors, and on raw material shortage.
The economy in Macaronesia is, however, service-oriented. The tertiary sector accounts for more than 70% of total GVA in all archipelagos of Macaronesia (Fig. 3). The main contributor is the tourism sector, which has been thriving during the last decades in the four archipelagos as a source of income.
A more comprehensive analysis of each sector for each island is shown in Table 4, in which they are organized in primary, secondary and tertiary sector, highlighting the main economic activities.

Main aspects of blue economy development in Macaronesia
Tourism thrives in the various archipelagos of Macaronesia mostly because of their particular natural and environmental characteristics, including agreeable weather, rugged and sometimes unexplored natural landscapes, unique ecosystems, and biodiversity, including endemic species and abundance of submarine life. Cultural aspects are also relevant, such as hospitality, and more specific facets of the archipelagos such as aspects of cultural diversity (e.g. Cape Verde), unique cultural landscapes (e.g. 'levadas', unique hiking trails in Madeira).
The sector thrives especially in the Canary Islands (over thirteen million visitors in 2016) and Madeira (over one million visitors in 2016), where tourism specialization goes back to the end of the 19 th century (Matos, 2002). The Azores is the only archipelago worldwide to have earned the Sustainable Tourism Destination Certificate, awarded by the Global Sustainable Tourism Council (Paiva, 2019).
Fishing is an ancestral practice in Macaronesia and remains mostly artisanal (mostly small scale vessels up to 12 m in length). The activity is severely limited by natural/oceanographic conditions in some of the archipelagos. In the Azores, despite the large size (area and volume) of the archipelago's marine waters, fisheries can potentially only use 2.2% of its total area up to a depth of 1000 meters, due to the absence of a continental shelf and to high average depths throughout the archipelago. These physical aspects account for a relative lack of biomass and biologically frailty, especially regarding demersal and deep-water species (EC, 2017). In Madeira, extremely deep with low productivity waters and the narrow continental shelf also limit available habitats for coastal  Mainly based on the production of dairy products (milk, cheese) and transformation of fisheries products, such as tuna: fisheries generate circa 1000 indirect jobs, in the fish marketing circuit (maritime and air transport), and in the processing industry (preserves), concentrated in units producing canned tuna, for exportation.
Tourism: the industry has been progressively gaining weight in the archipelago because of its particular natural/environmental characteristics (weather, natural landscapes, ecosystems, biodiversity), and contributing to the economy, employability, and internationalization of the archipelago. Infrastructure has grown exponentially in recent years, nearing 14000 tourism beds in 2016; overnight stays increased from circa 569000 in 2011 to 974600 in 2016. Total revenue increased from €48 million in 2011 to over €87 million in 2017 (SREA, 2018). The archipelago is well connected to mainland Europe. Several air companies (including low costs) offer direct connections and tour packages from Europe and North America, i.a. (Calado, Borges, Ng & Vergílio, 2017).
Industry relates mostly to the production of artisanal goods (e.g. embroideries). Advanced financial services and favorable fiscal conditions offered by the archipelago attract many international finance companies (EC, 2018b).
Tourism: 85% of the GVA and 75% of employed population. Tourism offer focuses on the natural and cultural environment (natural landscapes and unique hiking trails), high-quality hotels, tax breaks and accessibility. Infrastructure (2016): 265 hotels (12% of which with 5-star facilities) and a total capacity of 35177 tourism beds (capacity to accommodate >1 million tourists a year). Most tourism development is concentrated around the main city, Funchal (53% of all hotels, 66% of rooms and of total lodging capacity). The archipelago is well connected by air to 30 different main European cities (Almeida & Correia, 2010).

Canary Islands
In 2014 accounted for 2% of GVA (compared to 30% in the 1960s) (Madruga et al., 2016). Agriculture: Currently, only 10% of the archipelago's surface is farmed mainly with dryland cultures, and a small portion of irrigation farming (bananas, tomatoes), for the Spanish and European markets, and other crops also for export, mainly tropical fruits and flowers. Fisheries: Despite a narrow continental shelf and relatively poor waters, reached over 18055 tons, and €46.99 million in 2011 (Popescu et al., 2013). Circa 87 % of fishing fleet is artisanal with diverse fishing gears. Remaining vessels include trawlers, longlines and purse seiners. Main catches: Atlantic chub mackerel, sardinellas, skipjack tuna, parrotfish, and yellow fin tuna.
Industry and construction sectors are responsible for 7.9% and 5% of the total GVA, respectively (EC, 2018a), and do not have a significant impact on the economy of the archipelago. Fish processing: the activity has almost disappeared in the archipelago; consists mainly of processing fresh and frozen fish for distribution, freezing and production of cured and smoked fish.
Tourism: with circa 12 million visitors a year, the sector accounts for 86% of the economy in the archipelago and employs 87% of the population (Madruga et al., 2016). Infrastructure (2016): >2000 hotels and total lodging capacity of circa 422500 tourism beds.
Cape Verde Employs nearly 40% of the population, but contributes only 9% to the GVA. Agriculture: negatively affected by arid climate and droughts. Cape Verde imports nearly 90% of its food and material needs (over 60% of the country's GDP) (Nshimyumuremyi, 2018).
Fisheries: remain small-scale and artisanal in spite of a vast EEZ and the enormous potential of its marine resources (Nshimyumuremyi, 2018). Main catches: fish and shellfish of high commercial value (exported fresh, frozen and canned).
Industry is limited to light manufacturing and accounts for only 3.4% of the GDP. Main industries: food industry and manufacture of furniture and mattresses account for 45% of industries in 2013 (INECV, 2015). In 2017, construction represented 8.4% of GDP. Exports include fuels, lubricants, and fish (Nshimyumuremyi, 2018).
Tourism (and foreign direct investment in the sector): approximately 70% of GDP in 2016 (Nshimyumuremyi, 2018). Activity takes advantage of various natural aspects (climate, sand beaches, abundance of submarine life and rugged and unexplored landscapes), culture (hospitality, significant cultural diversity), and favourable political environment (democratic stability) (Lopez-Guzman, Borges & Cerezo, 2011). Average growth of 11.4%/y between 2000-2010, higher than the growth rates of world tourism (Ribeiro, Valle & Silva, 2013). Number of tourists doubled between 2010 and 2016 (from circa 382000 to 644500), as did overnight stays, from 2.3 to 4 million (INE, 2017). Infrastructure (2016): 233 hotels and lodging capacity of >18000 tourism beds, 46.2% of which in Sal island (INE, 2017). Most of the country's trade is with the European Union, with 85% of total exports of goods, and over 95% of exports of services (tourism) (Nshimyumuremyi, 2018). The majority of tourists (60%) visiting the country do it on charter flights mostly to the islands of Sal and Boa Vista (Ribeiro et al., 2013). Cruise tourism: growing rapidly in recent years (approximately 50000 tourists in 2012) (Ribeiro et al., 2013).
Source: authors' own elaboration. and demersal species and fishing methods. In the Canary Islands, despite the existence of a narrow continental shelf and relatively poor waters, fishing is still an important activity. The reduction of outermost regions' fleets and fleet capacities to maintain sustainable fishing stocks, has contributed to a decreasing trend in the number of vessels and fishers (EC, 2017). Cape Verde has a vast EEZ and the enormous potential of its marine resources and fishing is an important branch of the economy, and one of the leading export sectors (Nshimyumuremyi, 2018). In 2008, the sector employed 10500 people (61% of which in harvesting). In relative terms, the Cape Verdean processing industry is the most important in Macaronesia. Although marine aquaculture is being promoted in the Azores as an alternative to fisheries, natural (physical and oceanographic) and weather conditions in the archipelago are generally not favorable to the installation of the activity. Contrarily, in Madeira, due to much more favorable environmental conditions, marine aquaculture has a high potential, even if it still has a low economic weight.
In the Canary Islands, aquaculture production totaled 7648 tons in 2015, with a value at first sale of €34 million (EC, 2017). The activity is almost entirely based on sea bass and sea bream reared in sea cages. In 2011, the sector started to produce microalgae, Senegalese sole and shrimp.
Since the 19 th century, the strategic position of Macaronesian archipelagos around the midpoint of the Atlantic trading routes made them attractive as way stations between Europe and the rest of the world. They were used for resupplying water, fresh goods, and coal to steamships (Bosa, 2013). The situation has not changed since then, and the islands are still considered as a convergence of shipping lanes where no significant commercial activity is taking place except in the Canary Islands (Fig. 4). In fact, compared to the other archipelagos, the Canary Islands present a high rate of maritime carriage of goods due to its growing population and to its extreme dependence on maritime transportation from mainland Europe to supply goods in order to meet local demands. The port of Las Palmas (Gran Canaria) is one of the major shipping ports in Spain. It is ranked 87 th in the top 200 ports worldwide and is an important trans-shipment point on international shipping routes (Tovar, Hernandez & Rodriguez-Deniz, 2015). It stands out in terms of fuel supplies, passenger traffic and container traffic with a total transaction of nearly 1.1mln TEUs in 2010 (Camarero Orive et al., 2016).

Azores Madeira Cape Verde Canaries
Shipbuilding and repair are marginal activities in Macaronesia. In the Azores, shipbuilding consists of the construction of fishing vessels, while ship repair, mostly of fishing vessels and recreational boats, is in decline. Considering the potential increase of yachting and sailing boats calling for services in Azores, vessel repair could represent an important development possibility. In Madeira, ship repair is concentrated in Funchal, with a number of companies involved in the repair of engines, electric and electronic parts and mechanical repairs. Its development is linked to the increase in yachts and sailing boats calling in at the islands and to the management of spaces in port areas. In the Canary Islands, shipbuilding and repair is in decline. Revision, repair and maintenance of oil platforms of the Gulf of Guinea have contributed to reactivate the activity over the last five years, but the drop in oil barrel prices has slowed down the growth of the sector. The growth of nautical activities, such as fitting out and repair of nautical craft, offers further opportunities for the reactivation of the sector (EC, 2017).
Blue biotechnology is currently only relevant in the archipelago of Madeira and the Canary Islands, but there is potential interest in exploring biological organisms from extreme environments (such as hydrothermal vents) found in the Azores archipelago (Gianni, Ferreira, Boschen-Rose & Johnson, 2019). In Madeira, a public-private partnership (university-micro company) is producing natural extracts obtained from marine macroalgae. In the island of Porto Santo, a small plant is producing biofuel from microalgae (EC, 2017). In the Canary Islands, microalgae production is in place as a branch of aquaculture.
Azores (specifically, Pico Island) has one of the first wave energy plants in the world, a collaborative pilot project designed and developed by three universities (Instituto Superior Técnico, mainland Portugal; Queen's University of Belfast and the University College Cork, Ireland). However, the existence of technical problems and the minute amounts of energy produced so far, still do not allow wave energy to be considered as a promising activity for the short to medium term.
In the Canary Islands, the natural oceanographic conditions of the archipelago offer the potential for becoming an international laboratory for the testing of new blue energy developments, namely through PLOCAN (Plataforma Oceanográfica de Canarias -Oceanographic Platform of the Canary Islands) and the regional government has been requesting from the national Spanish government the recognition of competences in relation to marine renewable energies (EC, 2017).
In Macaronesia, aggregate extraction occurs only in the Azores and Madeira, consisting, respectively, of sand extraction, and of gravel and sand extraction. In both cases the activity has limited economic relevance, employs few people, and does not offer good prospects due to the decline of demand and high investments required to carry out the activity (EC, 2017).
Deep-sea mining can be considered as a particular aspect of aggregate extraction. There is interest on the exploration and potential exploitation of polymetallic sulphides, formed by hydrothermal vent systems along the Mid Atlantic Ridge, where the Azores archipelago is located (Gianni et al., 2019).
In Macaronesia, this activity, whose development is receiving international support, is carried out almost entirely in the Canary Islands, which is among the world leaders in the desalination of seawater with 320 desalination plants. The activity has been one of the main factors allowing tourism development in archipelago, but consumes large amounts of electricity obtained from fossil fuels, with the associated environmental impacts and substantial costs. Experiences are ongoing in the archipelago to use on-land wind energy in desalination plants (EC, 2017). In the archipelago of Madeira, there is one plant in the island of Porto Santo, which seems sufficient to satisfy local demand. The activity is also being developed in Cape Verde. No official data are available on the number of plants currently operated in the Cape Verdean archipelago.

Discussion and conclusions
The main economic activities in Macaronesia are strongly reliant on the specificities of the various archipelagos. This study analyzed particularly the geographical and biophysical influences on the main uses and activities, which are also affected by climate and cultural characteristics, included to some extent.
Tourism is the main economic activity and takes advantage of the unique natural and cultural settings of each one of the archipelagos, coupled to the remoteness and exotic feel of some of these destinations. In Cape Verde, projections for the service sector in 2018 are optimistic and include a considerable increase in private investment in tourism. However, boosting tourism and generating more substantial economic benefits in Cape Verde will require structural reforms, such as better organization of the local production of goods and services, the creation of a quality certification system for local products, and improvements in inter-island transportation (Nshimyumuremyi, 2018).
Despite the vastness of the maritime territories of these archipelagos, fishing in Macaronesia is hampered by very narrow (in some cases, virtually non-existent) continental shelves, and low productivity waters, which significantly limit the activity. In the case of the Azores, sometimes rough ocean conditions further deter seafaring activities. Aquaculture constitutes an alternative source of seafood protein, but again, due to physical (oceanographic) limitations, only in the Canary Islands and, to some degree, in Madeira. Macaronesian archipelagos have traditionally been important stopovers along transatlantic shipping routes, and remain important as such. The Canary Islands rank the highest in Macaronesia in terms of freight cargo and also cruise tourism, while the latter is also extremely important for the archipelago of Madeira, growing rapidly in Cape Verde and, also, to some extent, in the Azores, where yachting is an important activity. Conversely, shipbuilding and repair are mostly in regression. Blue biotechnology is only currently relevant in two of the archipelagos (Madeira and Canary Islands) but has great potential for development in the Azores, due to the ongoing search for biochemical material from extreme environments such as the ones found in hydrothermal vents along the Mid-Atlantic Ridge where the Azores are located. Marine renewable energies, while of great interest to secure an independent/autonomous energy supply of these islands, are, as in the case of fisheries and aquaculture, also limited by the physical (bathymetric and oceanographic) conditions of the archipelagos, with plunging cliffs and/or very narrow continental shelves. Aggregate extraction, consisting mostly of sand and gravel extraction in the Azores and Madeira, currently has limited economic impact. Again, the particular physical characteristics of the different archipelagos may play a key role in the near future in the development of this activity, particularly in what concerns the exploration and exploitation of polymetallic sulphides in the Azores, where these aggregates are formed in association with hydrothermal vent systems. Lastly, desalination of seawater for the production of drinking water for human consumption is a reality in the more meridional archipelagos in Macaronesia (Madeira, Canary Islands, Cape Verde), again because of their particular, in this case, (more) arid climates. The Azores, because of their central Atlantic location enjoys a more humid climate than the rest of the archipelagos in Macaronesia.
It becomes clear that island geography shapes the use of the various maritime spaces in Macaronesia in many and diversified ways. It may act sometimes as a restricting condition to the full developing of an activity, not providing the feasible means or not enabling profitable margins, and at the same times those conditions may be allow and foster other uses and activities. Recognizing these specificities is key to plan and manage the use of each of these maritime spaces sustainably, namely in the framework of MSP initiatives. Also, the scales and strategies of MSP should differ according to jurisdictional maritime areas with the first miles around the islands having detail scales and zoning, while the large EEZ and ECS being subject to more strategic planning. It is also crucial to comprehend how each sector and activity can be addressed within the Blue Growth policy, in terms of very well established activities (coastal and maritime tourism) and potential ones (aquaculture and biotechnology). Furthermore, it is cornerstone to understand the geographical and biophysical conditions within this context in order to capitalizing them in favor of the environmental and economic sustainability in archipelagic regions while developing their MSP projects. MSP is mandatory in the EU through Directive 2014/89/EU, and is the ocean management regime advocated by the United Nations for coastal and marine waters worldwide.
In the Archipelagos of the Macaronesia, MSP is being addressed by each national government at different stages of development, as well as in the scope of the MarSP (Macaronesian Maritime Spatial Planning) project that includes all the archipelagos except Cape Verde. The MarSP is a twoyear long project, ending in 2019 that aims to reinforce MSP by assisting the competent authorities of Portugal and Spain and to provide management tools that are adapted to the regional environmental and socio-economic settings of each archipelago. By recognizing the specificities dictated by the particular geographies of the various archipelagos and islands, MSP in the Macaronesia can contribute to further the sustainable development of human communities and uses at sea.