Soil Health Analysis, Set. Группа авторов

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Название Soil Health Analysis, Set
Автор произведения Группа авторов
Жанр Биология
Серия
Издательство Биология
Год выпуска 0
isbn 9780891189909



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3.1 are: (1) What methods can be used to implement practices that will effectively achieve the underlying management goals?, and (2) What magnitude of soil health benefit can be achieved by investing in these practices? To help address the first question, several USDA‐NRCS Conservation Practice Standards (Table 3.2) have been developed (Schnepf and Cox, 2006; USDA‐NRCS, 2019a). It is important to note, however, that each “practice standard” can apply to multiple conservation management options that have multiple interactions as illustrated in (Fig. 3.2). This uncertainty is also one reason soil health is considered useful by some and futile by others.

Conservation Goal Potential NRCS Approved Practices
Keep soil covered Conservation cover (327a); Forage and biomass planting (512); Mulching (484)
Reduce soil disturbance Contour farming (330); Controlled traffic farming (334); Residue and tillage management (329 and 345); Strip cropping (585); Windbreak (380)
Keep plants growing year round Conservation crop rotation (328); Cover crop (340); Wildlife habitat management (645)
Diversify Contour buffer strips (332); Filter strip (393); Grassed waterway (412); Riparian forest buffer (391)

      a Specific Conservation Practice Numbers associated with practices approved by USDA‐NRCS (2019a).

      When considering the conservation practices listed in Table 3.2 or elsewhere as strategies to remediate or enhance soil health, it is very important to recognize that implementation will require producer dedication, more time, and perhaps greater financial investment than most business as usual operations. Producers may need to change several core components of their

Schematic illustration of utilizing cover crops as a conservation practice to improve soil health can have many different effects and interactions.

      Source: USDA‐NRCS (https://www.nrcs.usda.gov/wps/PA_NRCSConsumption/download?cid=stelprdb1270377&ext=pdf).

      Recognizing these and other implementation challenges, it then becomes very important to consider the second question– how much of a soil health benefit can be achieved if those practices are implemented? The key phrase in that question is “how much!” Once again, there is no simple answer because every situation is site‐specific with regard to comparison groups, scale of production or implementation, cost and sensitivity of analytical methods, and the degree to which a biological, chemical, physical or overall soil health change is measurable. The latter must also consider whether the change is of statistical (i.e., p‐value) or practical value. We will now focus briefly on each of those concepts to explore how different decisions and actions will ultimately determine cost to benefit ratios for each of the potential soil health approaches.

      Comparison groups

      When documenting the specific benefit of a management practice, the potential magnitude of this change will depend on both inherent and dynamic soil properties (Fig. 3.3). For example, when considering tillage, visualizing a disturbance continuum can be helpful because humans have the ability to shape soils from a range tools and techniques, including tillage (Reicosky, 2015) and drainage (Dinnes et al., 2002; Skaggs et al., 1994). Similarly, when comparing a range of management practices, selection of two practices with major differences (e.g., moldboard plow vs native prairie grass) will likely show more significant differences due to contrasting levels of soil disruption, plant species, and external inputs (Veum et al., 2014; Veum et al., 2015). Furthermore, the way in which the comparisons are statistically conducted can definitely influence “how much” of an effect was present and detectable (van Es and Karlen, 2019; Roper et al., 2017).

      Scale

Schematic illustration of soil health documentation must recognize inherent (left) and dynamic (right) soil properties.