scholarly journals The significance of soils and soil science towards realization of the United Nations Sustainable Development Goals

SOIL ◽  
2016 ◽  
Vol 2 (2) ◽  
pp. 111-128 ◽  
Author(s):  
Saskia D. Keesstra ◽  
Johan Bouma ◽  
Jakob Wallinga ◽  
Pablo Tittonell ◽  
Pete Smith ◽  
...  
Keyword(s):  
Sustainable Development ◽  
Ecosystem Services ◽  
Primary Schools ◽  
Sustainable Development Goals ◽  
System Analysis ◽  
Soil Science ◽  
Transfer Of Knowledge ◽  
Effective Manner ◽  
Development Goals ◽  
Policy Arena

Abstract. In this forum paper we discuss how soil scientists can help to reach the recently adopted UN Sustainable Development Goals (SDGs) in the most effective manner. Soil science, as a land-related discipline, has important links to several of the SDGs, which are demonstrated through the functions of soils and the ecosystem services that are linked to those functions (see graphical abstract in the Supplement). We explore and discuss how soil scientists can rise to the challenge both internally, in terms of our procedures and practices, and externally, in terms of our relations with colleague scientists in other disciplines, diverse groups of stakeholders and the policy arena. To meet these goals we recommend the following steps to be taken by the soil science community as a whole: (i) embrace the UN SDGs, as they provide a platform that allows soil science to demonstrate its relevance for realizing a sustainable society by 2030; (ii) show the specific value of soil science: research should explicitly show how using modern soil information can improve the results of inter- and transdisciplinary studies on SDGs related to food security, water scarcity, climate change, biodiversity loss and health threats; (iii) take leadership in overarching system analysis of ecosystems, as soils and soil scientists have an integrated nature and this places soil scientists in a unique position; (iii) raise awareness of soil organic matter as a key attribute of soils to illustrate its importance for soil functions and ecosystem services; (iv) improve the transfer of knowledge through knowledge brokers with a soil background; (v) start at the basis: educational programmes are needed at all levels, starting in primary schools, and emphasizing practical, down-to-earth examples; (vi) facilitate communication with the policy arena by framing research in terms that resonate with politicians in terms of the policy cycle or by considering drivers, pressures and responses affecting impacts of land use change; and finally (vii) all this is only possible if researchers, with soil scientists in the front lines, look over the hedge towards other disciplines, to the world at large and to the policy arena, reaching over to listen first, as a basis for genuine collaboration.

scholarly journals FORUM paper: The significance of soils and soil science towards realization of the UN sustainable development goals (SDGs)

2016 ◽  
Author(s):  
S. D. Keesstra ◽  
J. Bouma ◽  
J. Wallinga ◽  
P. Tittonell ◽  
P. Smith ◽  
...  
Keyword(s):  
Sustainable Development ◽  
Ecosystem Services ◽  
Primary Schools ◽  
Sustainable Development Goals ◽  
Soil Science ◽  
Transfer Of Knowledge ◽  
Policy Cycle ◽  
Effective Manner ◽  
Development Goals ◽  
Policy Arena

Abstract. In this FORUM paper we discuss how soil scientists can help to reach the recently adopted UN Sustainable Development Goals in the most effective manner. Soil science, as a land-related discipline has important links to several of the SDGs which are demonstrated through the functions of soils and the ecosystem services that are linked to those functions. We explore and discuss how soil scientists can rise to the challenge both internally, in terms of our procedures and practices, and externally in terms of our relations with colleague scientists in other disciplines, diverse groups of stakeholders and the policy arena. To meet these goals we recommend the following steps to be taken by the soil science community as a whole: (i) Embrace the UN Sustainable Development Goals, as they provide a platform that allows soil science to demonstrate its relevance for realizing a sustainable society by 2030. (ii) Show the specific value of soil science: Research should explicitly show how using modern soil information can improve the results of inter- and trans-disciplinary studies on SDGs related to food security, water scarcity, climate change, biodiversity loss and health threats. (iii) Given the integrative nature of soils, soil scientists are in a unique position to take leadership in overarching systems-analyses of ecosystems; (iii) Raise awareness of soil organic matter as a key attribute of soils to illustrate its importance for soil functions and ecosystem services; (iv) Improve the transfer of knowledge through knowledge brokers with a soil background; (v) Start at the basis: educational programs are needed at all levels, starting in primary schools, and emphasizing practical, down-to-earth examples; (vi) Facilitate communication with the policy arena by framing research in terms that resonate with politicians in terms of the policy cycle or by considering drivers, pressures and responses affecting impacts of land use change; and finally (vii) all this is only possible if researchers, with soil scientists in the frontlines, look over the hedge towards other disciplines, to the world-at-large and to the policy arena, reaching over to listen first, as a basis for genuine collaboration.

scholarly journals Sustainable Feedbacks of Colombian Paramos Involving Livestock, Agricultural Activities, and Sustainable Development Goals of the Agenda 2030

Systems ◽  
2019 ◽  
Vol 7 (4) ◽  
pp. 52
Author(s):  
Raúl Andrés Molina Benavides ◽  
Rómulo Campos Gaona ◽  
Hugo Sánchez Guerrero ◽  
Leonidas Giraldo Patiño ◽  
Alberto Stanislao Atzori
Keyword(s):  
Sustainable Development ◽  
Ecosystem Services ◽  
Sustainable Development Goals ◽  
System Analysis ◽  
Human Life ◽  
System Thinking ◽  
Human Presence ◽  
Agenda 2030 ◽  
Soil Sustainability ◽  
Development Goals

Colombian mountain Páramos are considered natural areas with a very important role for human life. Páramos provide, both in mountain and lowland areas, a multitude of ecosystem services which start from vegetation to soil sustainability. The sustainability of Páramos is however impaired by several anthropogenic activities, including agricultural and livestock practices. A system thinking approach was applied in this work to improve the systemic understanding of factors affecting sustainability and resilience of Páramos agro-ecosystems. Interdisciplinary literature evidences were summarized and conceptually analyzed in order to develop causal loop diagrams of Páramo system structures allowing describing the main feedback loops involving (involved in/connecting) the Páramo ecosystem and driving its sustainability. From the causal diagram analysis few insights to maintain the human presence in Páramos arose. The system analysis highlights that human presence in Páramos should be stimulated, avoiding agriculture and livestock activities as the main income source. Particularly, social interactions, education on the Páramos environmental and relevance of agricultural practices to foster ecosystem services and multiple rentable economic activities should be enhanced. The study also includes the role of the government in providing the Páramo inhabitants with payments for ecosystem services and environmental education aimed to boost sustainability. Sustainable Páramo management will apply specific leverages on the system to reach Sustainable Development Goals 6 (water), 8 (economic growth, employment and work), 13 (climate change), and 15 (sustainable use of terrestrial ecosystems) of the Agenda 2030.

scholarly journals Land-Management Options for Greenhouse Gas Removal and Their Impacts on Ecosystem Services and the Sustainable Development Goals

2019 ◽  
Vol 44 (1) ◽  
pp. 255-286 ◽  
Author(s):  
Pete Smith ◽  
Justin Adams ◽  
David J. Beerling ◽  
Tim Beringer ◽  
Katherine V. Calvin ◽  
...  
Keyword(s):  
Sustainable Development ◽  
Ecosystem Services ◽  
Greenhouse Gas ◽  
Land Management ◽  
Wetland Restoration ◽  
Sustainable Development Goals ◽  
Management Options ◽  
Gas Removal ◽  
Development Goals ◽  
Greenhouse Gas Removal

Land-management options for greenhouse gas removal (GGR) include afforestation or reforestation (AR), wetland restoration, soil carbon sequestration (SCS), biochar, terrestrial enhanced weathering (TEW), and bioenergy with carbon capture and storage (BECCS). We assess the opportunities and risks associated with these options through the lens of their potential impacts on ecosystem services (Nature's Contributions to People; NCPs) and the United Nations Sustainable Development Goals (SDGs). We find that all land-based GGR options contribute positively to at least some NCPs and SDGs. Wetland restoration and SCS almost exclusively deliver positive impacts. A few GGR options, such as afforestation, BECCS, and biochar potentially impact negatively some NCPs and SDGs, particularly when implemented at scale, largely through competition for land. For those that present risks or are least understood, more research is required, and demonstration projects need to proceed with caution. For options that present low risks and provide cobenefits, implementation can proceed more rapidly following no-regrets principles.

scholarly journals THE TERRITORIAL MANAGEMENT CONTRACTS AS INNOVATIVE NEW GOVERNANCE OF THE TERRITORY IN THE FRAMEWORK OF THE EUROPEAN UNION CLLD PROGRAMME AND ECOSYSTEM SERVICES POLICY

2018 ◽  
Author(s):  
Adriano CIANI ◽  
Asta RAUPELIENE ◽  
Vilma TAMULIENE
Keyword(s):  
Sustainable Development ◽  
Ecosystem Services ◽  
Sustainable Development Goals ◽  
Local Development ◽  
Good Practice ◽  
Management Approach ◽  
The Sustainable Development ◽  
Territorial Management ◽  
Development Goals ◽  
Management Contracts

In the world, the question of the good practice to manage of territory is a pillar of the implementations of Sustainable Development Goals 2015-2030. The authors are working in collaboration with a holistic approach at the topic. In this way, the Smart Communities and Smart Territories are the new paradigms in 21th Century to solve the question of the adaptation at the Climate Change and to guarantee, for the future generation, the conservation and promotion of all potentialities of each territory and identity of areas. Until now, they have use a deductive method to analyse and show, in the framework of the Sustainable Development, the Community Led Local Development (EU Programme for CLLD) and Ecosystem Services, the need to move from an emergency management approach to pre-emptive territory management. The results of this research have produced the original and autonomous configuration of a new and innovative strategy and governance based on a model that puts in synergy the three aspects of the framework that has been given the name of Territorial Management Contracts (TMC). The TMC, appear a possible shared and democratic model that could to combine the territory risk management with solutions of development driving and sharing by the local populations. This innovative approach is strictly linked with the targets of the Sustainable Development Goals 2015-2030 and the Europe 2020 (smart, sustainable and inclusive). The authors argue that the TMC model is now sufficiently mature to pass from the processing phase to that of the implementation that in the Payment of the Ecosystem Services (PES) finds a concrete reinforcement of the scientific analysis carried out.

scholarly journals Contribution of Ecosystem Services to Achievement of the Sustainable Development Goals

Proceedings ◽  
2019 ◽  
Vol 30 (1) ◽  
pp. 8 ◽  
Author(s):  
Veidemane
Keyword(s):  
Decision Making ◽  
Land Use ◽  
Sustainable Development ◽  
Ecosystem Services ◽  
Sustainable Development Goals ◽  
Well Being ◽  
Trade Off ◽  
The Sustainable Development ◽  
Development Goals ◽  
Water Ecosystems

The sustainable development goals (SDGs) for 2030 are established to address global challenges including environment and human well-being. The SDGs are interconnected and achievement of them requires consideration of the planet’s ecosystems and resources - land, water and air. Ecosystem services (ES) approach has a high potential for better planning, policy and decision making. Understanding how different ecosystems (e.g., forests, rivers, wetlands, grasslands) contribute to the social and economic benefits is critical to ensure the long-term biodiversity protection and sustainable use of ecosystems. A conceptual framework linking biodiversity and ecosystem condition (its structure and functions), and ES to human well-being has been well-established in EU by so called MAES process (Mapping and Assessment of Ecosystem Services) lead by the European Commission. The framework is applied in recent research studies and projects, as well as national MAES processes. Various methods are applied for MAES in terms to determine biophysical, economic and social values and to deliver integrated ecosystem assessment. Assessment of ES and trade off analysis shall provide a new perspective for land use planning and decision making at different administrative and spatial levels and in different sectoral policies. EU and national policies for instance on agriculture, fishery, forestry, climate should account the benefits provided by relevant ecosystems and to ensure that the values are not diminished but rather enhanced during the implementation of the policies. Terrestrial and water ecosystems are interconnected as land-based human activities creates pressure that impacts the conditions in water ecosystems and thus delivery of ES by rivers and lakes. For example, intensive agricultural land use produces food for people and income; however, the activity also most frequently causes problems with water quality and quantity in the catchment area and a loss of biodiversity. A risk of such trade-off shall be handled in policy development. Ecosystems also contributes to the resilience of communities by reducing the risk of natural hazards and mitigate adverse impacts. Regulating services such as flood control are substituting investments in flood protection ensured by forests, wetlands and grasslands instead of human built infrastructure. Appropriate land cover and land use shall serve as a basic flood protection measure. Natural processes are increasingly recognised to create new-type solutions that use and deploy the properties of natural ecosystems and their services in an “engineered” way. A wide range of measures called also as nature-based solutions provide another opportunity to work with nature towards global sustainability.

scholarly journals Analyzing Spatial Congruencies and Mismatches between Supply, Demand and Flow of Ecosystem Services and Sustainable Development

2019 ◽  
Vol 11 (8) ◽  
pp. 2227 ◽  
Author(s):  
Uta Schirpke ◽  
Lukas Egarter Vigl ◽  
Erich Tasser ◽  
Ulrike Tappeiner
Keyword(s):  
Sustainable Development ◽  
Spatial Distribution ◽  
Ecosystem Services ◽  
Hot Spots ◽  
Sustainable Development Goals ◽  
Hot Spot ◽  
Economic Benefits ◽  
The Social ◽  
Planning Processes ◽  
Development Goals

Ecosystem services (ESs) are increasingly included into decision-making to achieve Sustainable Development Goals (SDGs). Although both concepts consider the interactions between humans and the environment, spatial relationships between ESs and sustainability have been rarely addressed. Therefore, this study aims at analyzing spatial congruencies and mismatches between ESs and sustainability in the greater Alpine region. Using hot spot and overlap analyses, we overlaid maps of supply, demand and flow of eight key ESs with the spatial distribution of sustainability based on 24 indicators. Our results reveal that, in most cases, supply of and demand for ESs are greatly dislocated. These mismatches are reflected also in the spatial distribution of sustainability. In contrast to ES demand hot spots, supply hot spots are generally characterized by high sustainability levels, especially in relation to the environment. However, due to discrepancies in the social and economic dimensions, it cannot be assumed that ES supply hot spots always correspond to high sustainability. Hence, using ES indicators for measuring sustainability provides rather limited insights. We conclude that both concepts should be applied in a complementary way to maximize ecological, social and economic benefits in land management and planning processes.

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