农业工程学报
農業工程學報
농업공정학보
2014年
24期
225-231
,共7页
朱海生%董红敏%左福元%袁丰%饶骏
硃海生%董紅敏%左福元%袁豐%饒駿
주해생%동홍민%좌복원%원봉%요준
粪便%温室气体%排放控制%堆积高度%覆盖
糞便%溫室氣體%排放控製%堆積高度%覆蓋
분편%온실기체%배방공제%퇴적고도%복개
manures%greenhouse gases%emission control%stack heights%cover
为了研究覆盖对不同堆积高度肉牛固体粪便温室气体(N2O、CH4和 CO2)排放量的影响,试验采用静态箱的方法研究了20和40 cm堆积高度时覆盖或者不覆盖情况下肉牛粪便温室气体的排放量。结果表明,堆积40 cm的牛粪CH4的累积排放量显著高于20 cm处理,而N2O和CO2累积排放量显著降低。覆盖显著增加了牛粪N2O的排放量和40 cm高度牛粪的CH4排放量,降低了40 cm高度牛粪CO2的排放量,而对20 cm高度牛粪CH4和CO2排放无显著影响。根据CH4和N2O在100 a 尺度上相对CO2的全球增温潜势计算出综合温室效应,无覆盖处理的20和40 cm牛粪的综合温室效应分别为(101.07±6.28)和(94.67±3.29)g/kg,覆盖处理的20和40 cm牛粪的综合温室效应分别为(104.20±6.78)和(103.43±3.21)g/kg,堆积高度为40 cm且无覆盖的综合温室效应最小。
為瞭研究覆蓋對不同堆積高度肉牛固體糞便溫室氣體(N2O、CH4和 CO2)排放量的影響,試驗採用靜態箱的方法研究瞭20和40 cm堆積高度時覆蓋或者不覆蓋情況下肉牛糞便溫室氣體的排放量。結果錶明,堆積40 cm的牛糞CH4的纍積排放量顯著高于20 cm處理,而N2O和CO2纍積排放量顯著降低。覆蓋顯著增加瞭牛糞N2O的排放量和40 cm高度牛糞的CH4排放量,降低瞭40 cm高度牛糞CO2的排放量,而對20 cm高度牛糞CH4和CO2排放無顯著影響。根據CH4和N2O在100 a 呎度上相對CO2的全毬增溫潛勢計算齣綜閤溫室效應,無覆蓋處理的20和40 cm牛糞的綜閤溫室效應分彆為(101.07±6.28)和(94.67±3.29)g/kg,覆蓋處理的20和40 cm牛糞的綜閤溫室效應分彆為(104.20±6.78)和(103.43±3.21)g/kg,堆積高度為40 cm且無覆蓋的綜閤溫室效應最小。
위료연구복개대불동퇴적고도육우고체분편온실기체(N2O、CH4화 CO2)배방량적영향,시험채용정태상적방법연구료20화40 cm퇴적고도시복개혹자불복개정황하육우분편온실기체적배방량。결과표명,퇴적40 cm적우분CH4적루적배방량현저고우20 cm처리,이N2O화CO2루적배방량현저강저。복개현저증가료우분N2O적배방량화40 cm고도우분적CH4배방량,강저료40 cm고도우분CO2적배방량,이대20 cm고도우분CH4화CO2배방무현저영향。근거CH4화N2O재100 a 척도상상대CO2적전구증온잠세계산출종합온실효응,무복개처리적20화40 cm우분적종합온실효응분별위(101.07±6.28)화(94.67±3.29)g/kg,복개처리적20화40 cm우분적종합온실효응분별위(104.20±6.78)화(103.43±3.21)g/kg,퇴적고도위40 cm차무복개적종합온실효응최소。
The greenhouse gases such as methane (CH4), nitrous oxide (N2O), and carbon dioxide (CO2) have increased in atmospheric concentration since 1 750, attracting more and more attention regarding climate change. Agriculture activities contribute to the increase of greenhouse gas concentration in the atmosphere, resulting in a higher global warming potential, which is estimated to contribute about 47%-58% of the total anthropogenic emissions of CH4 and N2O, respectively. Storage of animal manure is reported to be a significant agricultural source of methane and nitrous oxide. Generally, greenhouse gas emissions from animal manure can be influenced by storage stacking configuration and covering during storage. However, there are large uncertainties in this estimation. In order to quantify N2O, CH4, and CO2 emissions from covered beef cattle solid manure compared with uncovered manure stored at different stack heights during storage, four treatments were designed including a stack height of 20 cm without covering (H20), a tack height of 40 cm without covering (H40), a stack height of 20 cm with a 2 cm sawdust covering (H20C), and a stack height of 40 cm with a 2 cm sawdust covering (H40C), and the treatments were replicated three times. Thus, twelve polyvinylchloride cylindrical (30 cm in diameter and 90 cm in height) static vessels were designed and built to measure greenhouse gas emissions in the laboratory experiment. The stacking process commenced on May 29, 2014, and was measured for 49 days. The results showed that manure stack height significantly affected GHG emissions from beef cattle solid manure for both manure with covering and without covering. Compared with the lower stack height (20 cm), the higher stack height (40 cm) increased 40.91%and 61.29%CH4 cumulative emissions per unit of manure weight for covered manure and uncovered manure, respectively, But it decreased by 38.06%and 35.21%N2O cumulative emissions, and 43.68%and 55.12%CO2 cumulative emissions per kg of manure weight. N2O cumulative emission from beef cattle solid manure increased significantly by using cover material regardless of stack heights, 33.87 vs. 42.32 mg/kg for 20 cm stack height and 20.98 vs. 27.42 mg/kg for 40 cm stack height, respectively. CH4 cumulative emissions from covered beef cattle solid manure (3.00 g/kg) was significantly higher than that from the uncovered treatment (2.48 g/kg) for the 40 cm stacks, but CO2 cumulative emissions from covered beef cattle solid manure was significantly lower for the 40 cm stacks, 26.42 vs. 20.20 g/kg. There were no significant difference for CH4 (1.76 vs. 1.86 mg/kg) and CO2 (46.91 vs. 45.01 g/kg) cumulative emissions from covered beef cattle solid manure compared with uncovered for 20 cm stacks. Both CH4 and CO2 are the predominant greenhouse gas emitted from solid cattle manure storage facilities. On the basis of a 100 year global warming potential for CH4 and N2O, cumulative greenhouse gas emissions were (101.07±6.28) and (94.67±3.29) g/kg of manure weight for the 20 and 40 cm stacks without cover, and were (104.20±6.78) and (103.43±3.21) g/kg of manure weight for 20 and 40 cm stack height with cover, respectively. The results suggested that beef cattle solid manure of a 40 cm stack height without covering produced the least greenhouse gas emissions.