have estimated and modeled the effe

have estimated and modeled the effects of residue removal on SOC
and other soil properties in different soils from temperate regions
(Wilhelm et al., 2004; Blanco-Canqui and Lal, 2009; Muth et al., 2012;
Bonner et al., 2014; Johnson et al., 2014). Impacts of stover removal in
temperate regions under no-till management are considered to be
greater in sloping silt loam soils than in flat glaciated soils of similar texture
(Blanco-Canqui and Lal, 2009). Previous research with continuous
corn in Iowa showed that maintenance of soil organic matter levels
requires about 2 tons/ha yr of corn residue left on the soil surface
prior to plowing each fall (Larson et al., 1972); this is less than half the
residue produced under high-yield conditions, but may equal or exceed
residue amounts produced by low-yielding corn. Today, amounts and
tissue integrity of residue produced by current corn hybrids are much
higher than those of hybrids found four decades ago (Yanni et al.,
2011). In a recent report from the SunGrant Regional Partnership,
Johnson et al. (2014) empirically estimated a minimum residue return
rate required to sustain SOC levels at numerous locations of about
3.9 ± 2.2 Mg/ha yr, yet the authors warn against universal targets on
which to base harvest recommendations at a given site. An important
consideration is that there is a limited number of residue removal