Achieving Land Degradation Neutrality: A Robust Soil System Forms the Basis for Nature-Based Solutions

The SDGs can be split into three sets [...]

specific area. However, more is needed to actually progress. Hence, beyond management, it is needed to look at the socio-economic requirements of a specific management intervention for successful implementation. Cerdà and Rodrigo-Comino (2021) [10] have analyzed the potential for more sustainable soil management in a winegrowing area. They argue that the largest challenge is not the knowledge about physical processes to reduce soil erosion, as many successful management options are known and tested (e.g., Assandri (2017) [11]; Schwilch et al. (2018) [12]; Tan et al. [13]); however, the adoption of such management strategies needs more than scientific evidence. It needs social acceptance and economic embedding.
With that, we come to the last necessary step: the embedding of sustainable management in business models and policy. Gichenje et al. (2019) [14] and Keshavarzi et al. (2019) [15] describe options for policy related to LDN. Gichenje (2019) [14] states that landuse planning, which requires the integration of different policy goals across various sectors concerned with land use, can be an effective mechanism through which decisions with respect to LDN can be coordinated. She also states that the current disjointed approach that is scattered across policy area is limiting their effectiveness. Keshavarzi (2019) [15] concluded that the design of management zones, using pedo-geomorphological information, could reduce the time and cost of sampling necessary to assess potentially degraded areas of land and allowing policy to be more effectively integrated. Keesstra et al. (2018) [16], mentioned the need to search for holistic solutions that take into account elements from different goals to be able to find solutions that are sustainable from the perspective of the three levels of the SDGs: the biosphere, society, and economy. For finding solutions, we may also look at options that can be found in concepts like nature-based solutions and regenerative economies.
Therefore, we, as editors of the Special Issue, would like to highlight differences that the viewpoint (economy, society, or biosphere) create when designing management options. The viewpoint of 'economy' (Figure 1, top) strives for economic growth and therefore often aims for fast return of investment, resulting in quick wins. Since long stakeholder processes consume time and money, these benefits are often only for the directly involved individuals or companies (private parties). In general, the scale involved is the small local scale, e.g., a farmer's field used to its maximum capacity, or deforestation for generation of new agricultural fields, without taking into account the long-term or environmental effects. The viewpoint of 'society' (Figure 1, middle) has a broader and longer time frame. Typically, the benefits are the groups of people that have the aim of improving society as a whole, or looking from a soil's perspective, to improve the social foundation. These groups aim to cooperate to organize and create societal benefits or values. Related to LDN, this would mean better organization of agricultural and forest activities in a specific region together with stakeholders with interests in other ecosystem services (water managers, drinking water companies, nature conservators, tourism).
The viewpoint of the biosphere (Figure 1, bottom) brings again a broader view. Nature needs a large timespan to act and react to a new situation. Nature management is therefore planned for a longer time frame. Large-scale nature-based solutions (NBS) that are based in landscape evolution and (dis)connectivity of water and sediment in landscapes, are good examples. The benefits and values that are related to these type of management interventions improve and sustain the ecosystem services the biosphere brings to society in the long term.
Therefore, we can observe that management interventions that have their primary objective in an economy SDG, provide benefits in the short term for the stakeholders it was targeted for. The interventions that have a societal SDG as their primary objective, usually have larger groups of stakeholders to benefit from the results and the effects have an effect for several years at the minimum. Lastly, we have the interventions that are related to the biosphere ring. These interventions usually bring benefits to the majority of stakeholders (even nature itself is a stakeholder in most cases) by improving the ecosystem services the biosphere can provide. Changes in the functioning of the biosphere usually take place over a time frame of decades. Yet, when the biosphere is taken as a fundamental basis for economics and policies (as suggested by Keshavarzi et al., (2019) [15]), the connection between the different landscape elements can be restored and values created; as a result, local management activities can contribute to large scale (potentially global) impact.
To merge the three layers, we need to focus on finding solutions that work for both the short and long term-short-term actions contributing to long-term effects. These solutions should provide the socio-economic enabling conditions and benefits for the biosphere benefits. We argue that different types of NBS may bring the necessary solutions. In the opening paper of this Special Issue by Keesstra et al. (2018) [16], the four concepts that such a solution should be based on are examined. Now, with new knowledge available, we can conclude that the NBS concepts which are based on system thinking and (dis)connectivity are the key to create a robust water-sediment-soil system that is essential to achieve LDN. The second key element is the social acceptance which can be found in the concept of a regenerative economy, which is an economic system that works to regenerate capital assets and is focused on value creation instead of short-term profit. With soil being the primary capital asset, a regenerative economy provides land a hard economic but also societal and ecological value, making it worthwhile to invest in a robust soil system.