Shipitalo Martin J, Malone Robert W, Ma Liwang, Nolan Bernard T, Kanwar Rameshwar S, Shaner Dale L, Pederson Carl H
USDA-Agricultural Research Service, Ames, IA, USA.
USDA-Agricultural Research Service, Fort Collins, CO, USA.
Pest Manag Sci. 2016 Jun;72(6):1124-32. doi: 10.1002/ps.4087. Epub 2015 Aug 14.
Crop residue removal for bioenergy production can alter soil hydrologic properties and the movement of agrochemicals to subsurface drains. The Root Zone Water Quality Model (RZWQM), previously calibrated using measured flow and atrazine concentrations in drainage from a 0.4 ha chisel-tilled plot, was used to investigate effects of 50 and 100% corn (Zea mays L.) stover harvest and the accompanying reductions in soil crust hydraulic conductivity and total macroporosity on transport of atrazine, metolachlor and metolachlor oxanilic acid (OXA).
The model accurately simulated field-measured metolachlor transport in drainage. A 3 year simulation indicated that 50% residue removal reduced subsurface drainage by 31% and increased atrazine and metolachlor transport in drainage 4-5-fold when surface crust conductivity and macroporosity were reduced by 25%. Based on its measured sorption coefficient, approximately twofold reductions in OXA losses were simulated with residue removal.
The RZWQM indicated that, if corn stover harvest reduces crust conductivity and soil macroporosity, losses of atrazine and metolachlor in subsurface drainage will increase owing to reduced sorption related to more water moving through fewer macropores. Losses of the metolachlor degradation product OXA will decrease as a result of the more rapid movement of the parent compound into the soil. Published 2015. This article is a U.S. Government work and is in the public domain in the USA.
为生产生物能源而去除作物残茬会改变土壤水文特性以及农用化学品向地下排水系统的迁移。根区水质模型(RZWQM)此前已根据在一块0.4公顷凿耕地上排水中的实测流量和阿特拉津浓度进行了校准,该模型用于研究收获50%和100%的玉米(Zea mays L.)秸秆以及随之而来的土壤结皮水力传导率和总大孔隙度降低对阿特拉津、异丙甲草胺和异丙甲草胺草氨酸(OXA)迁移的影响。
该模型准确模拟了排水中实测的异丙甲草胺迁移。一项为期3年的模拟表明,当表面结皮传导率和大孔隙度降低25%时,去除50%的残茬使地下排水量减少31%,并使排水中阿特拉津和异丙甲草胺的迁移增加4至5倍。根据其测得的吸附系数,模拟得出去除残茬后OXA损失减少约两倍。
RZWQM表明,如果玉米秸秆收获降低了结皮传导率和土壤大孔隙度,地下排水中阿特拉津和异丙甲草胺的损失将会增加,这是因为较少的大孔隙中通过的水流增多,导致吸附作用减弱。由于母体化合物更快地进入土壤,异丙甲草胺降解产物OXA的损失将会减少。2015年发表。本文为美国政府作品,在美国属于公共领域。
