7 Basche, A., & DeLonge, M. (2017). The impact of continuous living cover on soil hydrologic properties: A meta‐analysis. Soil Science Society of America Journal, 81(5), 1179–1190. https://doi.org/10.2136/sssaj2017.03.0077
8 Boehm, M., & Burton, S. (1997). Socioeconomics in soil‐conserving agricultural systems: Implications for soil quality. In E. G. Gregorich & M. R. Carter (Eds.), Soil quality for crop production and ecosystem health (pp. 293–312). Amsterdam, Netherlands: Elsevier Science Publishers. https://doi.org/10.1016/S0166‐2481(97)80040‐2
9 Brussaard, L., Kuyper, T. W., Didden, W. A. M., de Goede, R. G. M., & Bloem, J. (2004). Biological soil quality from biomass to biodiversity – Importance and resilience to management stress and disturbance. In P. Schjønning, S. Elmholt, & B. T. Christensen (Eds.), Managing soil quality: Challenges in modern agriculture (pp. 139–161). Wallingford, U.K: CABI Publishing.
10 BASF. 2020. Poncho Votivo 2.0 Seed Treatment System. https://agriculture.basf.us/crop‐protection/products/poncho‐votivo‐2‐0.html (verified 13 July 2020).
11 Carter, M. C., Gregorich, E. G., Anderson, D. W., Doran, J. W., Janzen, H. H., & Pierce, F. J. (1997). Concepts of soil quality and their significance. In E. G. Gregorich & M. R. Carter (Eds.), Soil quality for crop production and ecosystem health (pp. 1–19). Amsterdam, Netherlands: Elsevier Science Publishers. https://doi.org/10.1016/S0166‐2481(97)80028‐1
12 Chendev, Y. G., Sauer, T. J., Ramirez, G. H., & Burras, C. L. (2015). History of East European Chernozem soil degradation: Protection and restoration by tree windbreaks in the Russian Steppe. Sustainability, 7(1), 705–724. https://doi.org/10.3390/su7010705
13 Congreves, K. A., Hayes, A., Verhallen, E. A., & Van Eerd, L. L. (2015). Long‐term impact of tillage and crop rotation on soil health at four temperate agroecosystems. Soil Tillage Research, 152, 17–28. https://doi.org/10.1016/j.still.2015.03.012
14 DeLong, C., Cruse, R., & Wiener, J. (2015). The soil degradation paradox: Compromising our resources when we need them the most. Sustainability, 7(1), 866–879. https://doi.org/10.3390/su7010866
15 Dick, R. P. (1997). Soil enzyme activities as integrative indicators of soil health. In C. Pankhurst, B. M. Doube, & V. V. S. R. Gupta (Eds.), Biological indicators of soil health (pp. 121–156). New York: CAB International.
16 Doran, J. W., Coleman, D. C., Bezdicek, D. F., & Stewart, B. A. (Eds.) (1994). Defining soil quality for a sustainable environment. SSSA Special Publication No. 35. Madison, WI: SSSA.
17 Doran, J. W., & Parkin, T. B. (1994). Defining and assessing soil quality. In J. W. Doran, D. C. Coleman, D. F. Bezdicek, & B. A. Stewart (Eds.), Defining soil quality for a sustainable environment (pp. 3–21). SSSA Special Publication No. 35. Madison, WI: SSSA. https://doi.org/10.2136/sssaspecpub35
18 Doran, J. W., & A. J. Jones (Eds.) (1996). Methods for assessing soil quality. SSSA special Publication No. 49. Madison, WI: SSSA.
19 Doran, J. W., & M. R. Zeiss. (2000). Soil health and sustainability: Managing the biotic component of soil quality. Applied Soil Ecology, 15, 3–11. https://doi.org/10.1016/S0929‐1393(00)00067‐6
20 Doran, J. W. (2002). Soil health and global sustainability: Translating science into practice. Agriculture Ecosystems Environment, 88(2), 119–127. https://doi.org/10.1016/S0167‐8809(01)00246‐8
21 Ellert, B. H., Clapperton, M. J., & Anderson, D. W. (1997). An ecosystem perspective of soil quality. In E. G. Gregorich & M. R. Carter (Eds.), Soil quality for crop production and ecosystem health (pp. 115–141). Elsevier Amsterdam, Netherlands: Science Publishers. https://doi.org/10.1016/S0166‐2481(97)80032‐3
22 Frey, S. D., Elliott, E. T., & Paustian, K. (1999). Bacterial and fungal abundance and biomass in conventional and no‐tillage agroecosystems along two climatic gradients. Soil Biology & Biochemistry, 31(4), 573–585. https://doi.org/10.1016/S0038‐0717(98)00161‐8
23 Gelaw, A. M., Singh, B. R., & Lal, R. (2015). Soil quality indices for evaluating smallholder agricultural land uses in northern Ethiopia. Sustainability, 7(3), 2322–2337. https://doi.org/10.3390/su7032322
24 General Mills. (2020). Regenerative Agriculture. https://www.generalmills.com/Responsibility/Sustainability/Regenerative‐agriculture (verified 13 July 2020).
25 Glæsner, N., Helming, K., & de Vries, W. (2014). Do current European policies prevent soil threats and support soil functions. Sustainability, 6(12), 9538–9563. https://doi.org/10.3390/su6129538
26 Grayston, S. J., Wang, S., Campbell, C. D., & Edwards, A. C. (1998). Selective influence of plant species on microbial diversity in the rhizosphere. Soil Biology & Biochemistry, 30(3), 369–378. https://doi.org/10.1016/S0038‐0717(97)00124‐7
27 Gregorich, E. G., & Carter, M. R. (Eds.) (1997). Soil quality for crop production and ecosystem health. Amsterdam, Netherlands: Elsevier Science Publishers.
28 Havlicek, E., & Mitchell, E. A. (2014). Soils supporting biodiversity. In J. A. Krumins & J. Dighton (Eds.), Interactions in soil: Promoting plant growth (pp. 27–58). Springer, Dordrecht. https://doi.org/10.1007/978‐94‐017‐8890‐8_2
29 Herrick, J. E., Brown, J. R., Bestelmeyer, B. T., Andrews, S. S., Baldi, G., Davies, J., Duniway, M., Havstad, K. M., Karl, J., Karlen, D. L., Peters, D. P. C., Quinton, J. N., Riginos, C., Shaver, P. L., Steinaker, D., & Twomlow, S. (2012). Revolutionary land use change in the 21st century: Is (rangeland) science relevant? Rangeland Ecology & Management, 65, 590–598. https://doi.org/10.2111/REM‐D‐11‐00186.1
30 Hillel, D. (1991). Out of the earth: Civilization and the life of the soil. Oakland, CA: University of California Press.
31 Hornby, D., & Bateman, G. L. (1997). Potential use of plant root pathogens as bioindicators of soil health. In C. Pankhurst, B. M. Doube, & V. V. S. R. Gupta (Eds.), Biological indicators of soil health (pp. 179–200). New York: CAB International.
32 Idowu, O. J., van Es, H. M., Abawi, G. S., Wolfe, D. W., Ball, J. I., Gugino, B. K., Moebius, B. N., Schindelbeck, R. R., & Bilgili, A.V. (2008). Farmer‐oriented assessment of soil quality using field, laboratory, and VNIR spectroscopy methods. Plant & Soil, 307, 243–253. https://doi.org/10.1007/s11104‐007‐9521‐0
33 Karlen,