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Data from 1984 to 2019, Scopus 2020.

There are several criticisms of the concept of ecosystem services, as well as their valuation proposals, primarily quantitative methodologies. The main criticisms emphasize that the concept is eminently anthropocentric, focuses on economic evaluation, promotes nature‐commodification relationships, and, therefore, favors exploitative human‐Nature relationships; moreover, it goes against biodiversity conservation goals. In addition, it is worth emphasizing that definitions and classifications are inaccurate and that all ecosystem process results are desirable and strengthen the network of relationships in the ecosystem.

      Supporters of the concept of ecosystem services refute the critics and explain that this concept goes beyond its anthropocentric nature and instrumental values since it leads to the interest of actors involved in biodiversity conservation and encourages the reconnection, complementarity, and ethical commitment of individuals and society to ecosystems. In addition, the inaccuracy of definitions and classifications improves transdisciplinary collaboration; most environmental services are not linked to the market.

      Despite the arguments for and counterarguments against the concept of ecosystem services, it has evolved over the last 30 years from a general heuristic model that highlights the importance of Nature for human wellbeing to a model that highlights how the appropriation of specific ecological structures or processes affects human wellbeing [22]. However, it is important to understand how ecosystems benefit other ecosystems that end up directly or indirectly influencing humanity.

      1.3.1 Sizing Ecosystem Services

      The first step toward a comprehensive assessment of ecosystem services lies in translating ecological complexity (structures and processes) into a more limited number of ecosystem functions that provide goods and services that are sized and valued by humans [18]. According to the aforementioned authors, understanding the functions of a given ecosystem and the nature and magnitude of its value for humans provides an empirical basis for the classification of useful aspects for humanity.

      Many scholars have tried to measure the value of services provided by natural environments. Thus, as a science, economics has developed several forms of analysis over the years, which can be divided into three stages: natural resource economics, environmental economics, and ecological economics [23]. Numerous studies focused on standardizing these investigations were published during this period. Among them, one finds Constanza [24–26], De Groot et al. [18], Hein et al. [27], and Andrade and Romeiro [28].

      Constanza et al. (1987) surveyed the economic value of 17 ecosystem services in 16 biomes; they only considered renewable resources and excluded non‐renewable fuels and the atmosphere. This study has shown the lack of standardization in the categorization of ecosystem services, as well as the difficulty of presenting the real valuation of these services.

      Overall, the valuation of ecosystem services depends on how much individuals would be willing to pay for a specific service, which makes this type of assessment relative since value is specific to objectives of choice (moment) and individuals evaluate things in different ways. A single person can assign two different values to the same service depending on the person's momentary state and whether they have greater or lesser need of it at that moment [29]. In addition, these services are often indispensable; for many individuals, no institution or technology can make them expendable [19].

      Several scholars have tried to improve methodologies in the last two decades to achieve well‐founded valuation parameters with applicability in different fields. Accordingly, De Groot et al. [18] have shown that data on ecosystem services often appears on incompatible scales. According to them, even if a given ecosystem service is sometimes valued at the price individuals are willing to pay for it, in some cases this service is so necessary for their survival that it is more logical to measure how much individuals would be willing to pay to avoid losing it.

      According to Merico [30], it is necessary to differentiate value from intrinsic value among different economic value types associated with natural resources. Use value derives from the way the environment is used, such as mineral resource extraction or birdwatching. On the other hand, intrinsic value is the value of a given good – even its potential value – such as a certain plant species growing in a specific area or a particular insect species.

      Based on the assumption that every ecosystem service derives from a given ecosystem function that has value for human beings, De Groot et al. [18] have systematized a wide variety of ecosystem functions by categorizing ecosystem services provided by such functions, either individually or jointly. The authors mentioned above divided ecosystem functions into four different groups: (i) regulation function (gas, climate, and water, among others); (ii) habitat function (places, such as refuges and estuaries, which provide habitat for animal and plant species); (iii) production function (food production), and; (iv) information function (cultural, recreational, historical, spiritual, scientific, among others); this division enabled the same groups in different environments. It is important to highlight that both regulation and habitat functions provide support to and maintain natural components; thus, they contribute to the provision of other functions [28].

The biggest challenge today in the study of ecosystem services is standardizing terminologies and methodologies, which is often an obstacle to more consistent analyses [31]; this issue can be associated with a lack of collaborative studies among scientists from different fields [29]. However, significant efforts have been made to establish standardization in these studies, such as those carried out by De Groot et al. [18], the Millennium Ecosystem Assessment (MA, 2003) [32], Santos and Silva [33], and Souza et al. [34].

      Santos and Silva [33] conducted a survey of ecosystem services in a coastal zone; they traveled to the study site to make an inventory based on environmental and geological indicators. This strategy was also adopted by Seppelt et al. [35] and reformulated by Crossman et al. [36], who suggested that the evaluated service should be described based on indicators such as quantification unit (i.e. area, time) and scale (local, regional, global).

Souza et al. [34] have adapted the methodologies suggested by the authors mentioned above (see Tables 1.2–1.4) and used them to value ecosystem services provided by beaches in Ilhéus County, Bahia State, Brazil (Figures 1.8 and 1.9). They concluded that the greater the concentration of technical systems, the smaller the variety and the poorer the quality of provided services, highlighting the importance of conducting diagnosis and ecological valuation studies to substantiate environmental management processes.

Table 1.2 Indicators for the valuation of regulating and supporting ecosystem services.

Regulating and supporting service	Low (1)	Medium (2)	High (3)
Natural sediment retention	Absence of vegetation in the backshore or along the beach ridge	Occurrence of vegetation in the backshore or along the beach ridge over at least 50% of the shoreline	Occurrence of vegetation in the backshore or along the beach ridge over more than 50% of the shoreline
Aquifer recharge	Absence of sandy terraces or terraces with waterproofed surface	Occurrence of sandy terraces in at least 50% of the shoreline	Occurrence of sandy terraces in over 50% of the shoreline
Water control and storage	Absence of wetlands Скачать книгу В начало < 11 12 13 14 15 16 17 18 19 20 > В конец