Evolution of ESVs in Hawaiʻi

Similar to the valuation literature review, many studies in Hawaiʻi have highlighted the critical role of the ocean for Hawaiian quality of life. The economically important tourism sector motivated the earliest study in the island valuation database and a string of recreational valuation studies thereafter. Studies of provisioning marine services have highlighted the importance of fisheries to the economy and society, as well as the impacts of management and policy. While the ocean certainly dominates, Hawaiian ESV is distinguished from the overall island literature database by its attention to terrestrial ecosystems. A particular interest is the impact of invasive species on water-regulating and -provisioning services. Representing the new frontier in valuation methods, one study tackled relational value for people with deep generational and cultural ties to land (Pascua et al. Reference Pascua, McMillen, Ticktin, Vaughan and Winter2017), and another the non-material values from cultural services (Gould et al. Reference Gould, Klain, Ardoin, Satterfield, Woodside, Hannahs, Daily and Chan2015).

Similar to the overall trend, studies seem to have moved from a single-ecosystem service focus to multiple services employing multiple valuation methods. We also see evidence of systems approaches to ecosystem services modelling in Hawaiʻi, ranging from studies using spatial biophysical modelling with production functions (Goldstein et al. Reference Goldstein, Caldarone, Duarte, Ennaanay, Hannahs, Mendoza, Polasky, Wolny and Daily2012; Wada et al. Reference Wada, Bremer, Burnett, Trauernicht, Giambelluca, Mandle, Parsons, Weil, Kurashima and Ticktin2017) to more complex models that capture economic and ecological feedbacks (van Beukering & Cesar Reference van Beukering and Cesar2004).

Practical uptake of ESV

Several ESV studies have influenced management practices and state policy. Some commonalities amongst these impactful valuation studies are their integration of biophysical modelling with economic valuation, resulting from strong collaborations between natural scientists and economists and partnerships between academics and resource management agencies. Cesar and van Beukering's (Reference Cesar and van Beukering2004) ecological–economic coral reef model, funded by the National Oceanic and Atmospheric Administration, helped set administrative penalties for damage to coral reefs and live rock (State of Hawaiʻi 2008). Forests’ value for water supply was the subject of multiple ESV studies that linked biophysical (land cover/land use, groundwater) and economic models to ultimately inform freshwater management and policy (State of Hawaiʻi DLNR 2010, 2011; Hawaiʻi Fresh Water Initiative 2016). This work led to explicit calls for investment in the protection of natural capital and full-value pricing of water and increased budgets for invasive species control.

Perhaps the most profound influence of ESV has been conceptually highlighting how nature nourishes the people and economy of Hawaiʻi. The importance of the environment for the economy and human well-being is embedded in a state effort to measure ‘progress’. Hawaiʻi has joined a small cohort of other states in an effort to replace the leading economic indicator used to evaluate economic growth, the GDP, with an alternative, the genuine progress indicator (GPI) (Lawn Reference Lawn2003). GPI uses ESV to adjust GDP for environmental changes. While not perfect for island settings and in dire need of localized valuation studies, GPI provides a framework to synthesize and report on trends across Hawaiʻi's broad sustainability goals (Ostergaard-Klem & Oleson Reference Ostergaard-Klem and Oleson2014). A bill calling for the state to produce GPI was recently introduced in the state legislature.

Looking forward

The ‘Sustainable Hawaiʻi Initiative’ commits to achieving 100% renewable electricity, doubling local food production, implementing a biosecurity plan, protecting 30% of priority watersheds and effectively managing 30% of nearshore ocean waters by 2030. Additional ESV studies could help advance this agenda. Evaluating the ecosystem service benefits of alternative watershed and marine protection plans could help identify cost-effective spatial arrangements of integrated land–sea conservation actions that balance benefits for multiple stakeholders while minimizing contentious trade-offs. Fully accounting for the ecosystem services delivered by agricultural plans to double local food production could highlight synergies amongst and trade-offs between objectives (i.e., agricultural futures that achieve gains in local food, sediment retention and cultural practices) versus those that might be environmentally harmful and conflict with cultural traditions and sense of place. Quantifying the costs and benefits of biodiversity loss and invasive species could help justify and optimize biosecurity and conservation initiatives. Finally, inclusive valuation of Hawaiʻi's precious water resources could reinforce indigenous interests and rights as well as the broader public's interest (Martin et al. Reference Martin, Martin, Penn and McCarty1996). All of these will require robust biophysical models, participatory valuation processes open to diverse worldviews and value sets and decision-support tools to objectively assess the trade-offs between multiple, largely incommensurate value sets.

First evidence of economic valuation impact (1993–2010)

The Bonaire National Marine Park (BNMP) surrounds the entire island. Established in 1979, BNMP was a ‘paper park’ for many years as funding was plagued by instability (Spergel Reference Spergel2005). In 1991, the management of the BNMP was revitalized with government funding, with the premise that the park should become self-financed, hinting at the introduction of user fees. Given the controversy surrounding user fees, a contingent valuation survey was conducted to infer visitors’ WTP for user fees for the BNMP. Overall WTP exceeded the relatively modest US$10 fee that was proposed at that time (Dixon et al. Reference Dixon, Scura and van't Hof1993, Reference Dixon, Scura, van't Hof and Herman2000).

Supported by Dixon et al.’s ESV study, user fees were introduced in 1992, leading to 90% coverage of financial needs by 2000 (De Meyer & MacRae Reference De Meyer and MacRae2006). Several years later, again supported by two ESV studies (Parsons & Thur Reference Parsons and Thur2008; Thur Reference Thur2010), a diversified fee system replaced the original user fee system in Bonaire, setting specific fee levels for different users (Kushner et al. Reference Kushner, Jungwiwattanaporn, Waite and Burke2012). The Bonaire experience in the region demonstrates that self-financing is a viable option for many of the region's protected areas that attract large numbers of visitors. Several protected areas in The Netherlands Antilles now have effective revenue generation strategies, and as a result are among the best managed in the region. BNMP is recognized by the International Coral Reef Initiative as ‘one of the best-managed marine parks in the world’ (STINAPA 2008).

Second-wave ESV studies (2010–2013)

Driven by several international conventions and treaties aiming to protect biodiversity, The Netherlands was encouraged to develop more effective environmental policies and regulations. In 2011, this obligation led The Netherlands’ government to initiate ‘The Economics of Ecosystems and Biodiversity’ (TEEB) study to create an understanding of the value of ecosystem services in the Caribbean Netherlands, including Bonaire. The TEEB study aimed to increase awareness about the importance of natural capital for society and to support more sustainable decision-making. An extensive ESV study resulted in the mapping and monetization of ten ecosystem services, including fisheries, cultural values, tourism, non-use values, carbon and coastal protection; the cumulative sum of all ten was the total economic value of ecosystem services on Bonaire. The TEEB Bonaire study is internationally recognized for successfully bridging the science–policy gap through raising awareness, supporting policies and developing mechanisms for sustainable financing (Waite et al. Reference Waite, Kushner, Jungwiwattanaporn, Gray and Burke2015; McFarland & Gerdes Reference McFarland and Gerdes2016).

The TEEB Bonaire study has directly generated financial resources for nature conservation on Bonaire. Insight into the discrepancy between the willingness of Dutch mainland citizens to pay for nature conservation on Bonaire in the Caribbean Netherlands and the lack of actual funding were used by the Ministry of Economic Affairs to secure US$5.2 million investment for nature conservation on Bonaire. Moreover, encouraged by the high WTP of beneficiaries of crucial ecosystem services on Bonaire, World Wildlife Fund for Nature – Netherlands allocated a substantial budget for nature conservation on Bonaire (Sewell Reference Sewell2015).

Third phase moving towards holistic approaches (2013 to present)

The TEEB study was discussed in the Dutch Parliament and was actively used by the State Secretary of Economic Affairs to showcase the important link between nature and economic prosperity. Furthermore, through ample publicity in the local media and a documentary, the study raised awareness about the sustainability of the economy of Bonaire. Residents are now better aware of the importance of nature for their own well-being and the disastrous effect of goats on the terrestrial ecosystems and coral reefs. The awareness-raising influence stretches beyond Bonaire. During the International Coral Reef Initiative (ICRI) General Meeting 28, the TEEB study inspired regional managers to organize a seminar for Caribbean practitioners on Bonaire in 2014. The Caribbean Marine Protected Area Management disseminated the results of the TEEB study to British, French and Dutch Caribbean marine protected area (MPA) managers, and the International Union for Conservation of Nature (IUCN) International and Blue Solutions present the Bonaire case as best practice. The TEEB study was also used for educational purposes in handbooks (Mumby et al. Reference Mumby, Flower, Chollett, Box, Bozec, Fitzsimmons, Forster, Gill, Griffith-Mumby and Oxenford2014) and in classrooms (e.g., Texas A&M University).

Moving forward, a policy monitoring instrument for the local government of Bonaire is currently being developed, with the aim to measure the island's progress towards a sustainable economy as spelled out in the Integrated Multi-Year Plan of Bonaire (Openbaar Lichaam Bonaire 2015). Moreover, using the information collected in the TEEB study, an ecological–economic input–output model was developed that aims to create insight into the importance of natural capital for the local economy in terms of GDP and employment (Koks et al. Reference Koks, van Zanten and Wolfs2015).

Evolution of ESV

Primary research-based ecosystem valuation studies are scarce in Fiji and are often in the grey literature. Those that do exist largely originate from the mid-2000s onwards and reflect the multi-system and -service approaches of other studies in that period. The vast majority of Fijian ESV concerns the coral reef or marine systems, an indication of how vital these systems are to people's livelihoods and the Fijian economy. Very few terrestrial ESV studies exist. Data scarcity drives Fiji's reliance on the transfer pricing method. Many studies also have some form of descriptive valuation. Studies that used contingent valuation methods to elicit bequest value showed that cultural values are significant drivers of local preferences associated with traditional fishing grounds (iqoliqolis). O'Garra (Reference O'Garra2012) and Pascal and Seidel (Reference Pascal and Seidl2013) nonetheless found that tourism value was still likely to dominate other values.

Practical uptake of ESV

Valuation of non-market impacts has influenced policy decisions in Fiji. For instance, an estimate of damage costs on individuals’ health and community cohesion was crucial in the ministerial decision to ban the practice of using air tanks to deep dive for sea cucumber (Tabunakawai-Vakalalabure et al. Reference Tabunakawai-Vakalalabure, Bertram, James, Lalavanua and Mangubhai2017).

ESV has also influenced the Fiji National Biodiversity Strategy and Action Plan, which seeks ‘[t]o conserve and sustainably use Fiji's terrestrial, freshwater and marine biodiversity, and to maintain the ecological processes and systems which are the foundation of national and local development’ (Fiji 2007). Citing Sisto's (Reference Sisto1999) findings valuing ecosystem services at 40% of the country's GDP, the Plan emphasizes that ‘in order to compete for the attention of government decision makers in today's world, policies regarding biological diversity first need to demonstrate in economic terms the value of biological resources to a country's social and economic development.’

One focus of conservation effort has been on Fiji's coastal and marine areas, crucial sources of both local and global ecosystem services. In 2005, the Government of Fiji committed to protect 30% of its seas as MPAs by 2020 (IUCN 2016), and in 2017, Fiji hosted the UN Ocean Conference in New York, where they pledged voluntary commitments towards protection and sustainable management of marine ecosystems (Mangubhai Reference Mangubhai2017). Two important themes emerged within these commitments: first, the Government of Fiji recognized that ecosystem connectivity is a key element and the vital role of ridge-to-reef coastal management (Fiji DOE 2017; Mangubhai Reference Mangubhai2017); and second, the commitments explicitly cited the monetary economic contribution of fisheries and tourism for the Vatu-i-Ra Seascape and Great Sea Reef as justification for protection.

While the central government recognizes the systems connectivity and economic value of key sectors, much of Fiji's commitment to ecosystem sustainability is achieved through local management. Provincial-scale integrated coastal management plans have not used ESV to inform trade-offs and justify conservation measures (J.-B. Marre, personal communication 2017), but the value of ecosystem services at the local scale has attracted funding and stimulated national policy support. For example, van Beukering and Lea (Reference van Beukering and Lea2013) documented how ecosystem services embedded in three elements of poverty (opportunity, empowerment and security) improved more within Fiji's locally managed marine areas (FLMMAs) compared to similar villages outside. They showed that local popularity of the concept of LMMAs was entirely based on the multitude of benefits for local communities, including food, livelihoods, spiritual and cultural values and social cohesion. Perceived value of LMMAs has fomented expansion of the FLMMA network to some 250 areas covering more than 25% of Fiji's inshore area (United Nations Development Programme 2012).

Looking forward

As interest expands across the Pacific islands to exploit vast seabed mineral deposits, ESV could play a pivotal role. The world's first deep sea mining project will begin in early 2019 in Papua New Guinea after the country issued the first lease for deep sea mining. A study estimating that the project will deliver US$83.3 million in benefits neglected to include the costs of the mining on ecosystem services and other affected industries such as tourism and tuna (Cardno 2016). Accurately estimating these externalities is currently stymied by data scarcity (Gonzales et al. Reference Gonzales, Ram-Bidesi, Leport, Pascal, Brander, Fernandes, Salcone and Seidl2015), suggesting a need for ESV studies that could provide thorough full-cost accounting of all impacts, including those on cultural and more intangible services. Given that mining could have widespread impacts across the SESs, from tuna to tourism, more systematic thinking should be employed to ensure trade-offs are adequately assessed.