Teagasc, Johnstown Castle Environmental Research Centre, Wexford, Ireland.
Teagasc, Johnstown Castle Environmental Research Centre, Wexford, Ireland.
Sci Total Environ. 2015 Apr 1;511:362-8. doi: 10.1016/j.scitotenv.2014.12.074. Epub 2014 Dec 29.
Ruminant urine patches deposited onto pasture are a significant source of greenhouse gas nitrous oxide (N2O) from livestock agriculture. Increasing food demand is predicted to lead to a rise in ruminant numbers globally, which, in turn will result in elevated levels of urine-derived N2O. Therefore mitigation strategies are urgently needed. Urine contains hippuric acid and together with one of its breakdown products, benzoic acid, has previously been linked to mitigating N2O emissions from urine patches in laboratory studies. However, the sole field study to date found no effect of hippuric and benzoic acid concentration on N2O emissions. Therefore the aim of this study was to investigate the in situ effect of these urine constituents on N2O emissions under conditions conducive to denitrification losses. Unadulterated bovine urine (0 mM of hippuric acid, U) was applied, as well as urine amended with either benzoic acid (96 mM, U+BA) or varying rates of hippuric acid (8 and 82 mM, U+HA1, U+HA2). Soil inorganic nitrogen (N) and N2O fluxes were monitored over a 66 day period. Urine application resulted in elevated N2O flux for 44 days. The largest N2O fluxes accounting for between 13% (U) and 26% (U+HA1) of total loss were observed on the day of urine application. Between 0.9 and 1.3% of urine-N was lost as N2O. Cumulative N2O loss from the control was 0.3 kg N2O-Nha(-1) compared with 11, 9, 12, and 10 kg N2O-Nha(-1) for the U, U+HA1, U+HA2, and U+BA treatments, respectively. Incremental increases in urine HA or increase in BA concentrations had no effect on N2O emissions. Although simulation of dietary manipulation to reduce N2O emissions through altering individual urine constituents appears to have no effect, there may be other manipulations such as reducing N content or inclusion of synthetic inhibitory products that warrant further investigation.
反刍动物尿液斑痕沉积在牧场上是畜牧业中温室气体氧化亚氮(N2O)的一个重要来源。预计不断增长的粮食需求将导致全球反刍动物数量的增加,这反过来又将导致尿液中 N2O 的含量升高。因此,急需采取缓解策略。尿液中含有马尿酸,此前已将其与一种分解产物苯甲酸联系起来,以减少实验室研究中尿液斑痕中 N2O 的排放。然而,迄今为止唯一的现场研究发现,马尿酸和苯甲酸浓度对 N2O 排放没有影响。因此,本研究的目的是在有利于反硝化损失的条件下,研究这些尿液成分对 N2O 排放的原位影响。应用未稀释的牛尿(马尿酸浓度为 0 mM,U)以及添加苯甲酸(96 mM,U+BA)或不同马尿酸浓度(8 和 82 mM,U+HA1,U+HA2)的尿液。监测了 66 天的土壤无机氮(N)和 N2O 通量。尿液应用导致 N2O 通量升高了 44 天。最大的 N2O 通量占总损失的 13%(U)和 26%(U+HA1),出现在尿液应用的当天。0.9%至 1.3%的尿液-N 以 N2O 的形式损失。对照处理的累积 N2O 损失为 0.3 kg N2O-Nha(-1),而 U、U+HA1、U+HA2 和 U+BA 处理的 N2O-Nha(-1)分别为 11、9、12 和 10 kg。尿液 HA 或 BA 浓度的递增增加对 N2O 排放没有影响。尽管通过改变单个尿液成分来模拟饮食操纵以减少 N2O 排放的效果似乎没有影响,但可能还有其他操纵,例如降低 N 含量或包含合成抑制剂产品,值得进一步研究。
