农业环境科学学报
農業環境科學學報
농업배경과학학보
Journal of Agro-Environment Science
2014年
4期
803-809
,共7页
王义祥%黄毅斌%叶菁%王成己%翁伯琦%应朝阳
王義祥%黃毅斌%葉菁%王成己%翁伯琦%應朝暘
왕의상%황의빈%협정%왕성기%옹백기%응조양
水保措施%油桃园%土壤%有机碳组分
水保措施%油桃園%土壤%有機碳組分
수보조시%유도완%토양%유궤탄조분
soil conservation measures%nectarine orchard%soil%organic carbon fractions
以福建尤溪玉池果园水土流失定位观测点为平台,研究了不同水保工程措施对油桃园土壤有机碳及其组分的影响。结果表明,梯台清耕和梯台生草模式油桃园土壤有机碳密度较顺坡清耕模式分别提高18.3%和34.7%。梯台生草模式土壤有机碳含量分别比顺坡清耕和梯台清耕模式提高15.3%和46.5%,颗粒有机碳、轻组有机碳、可溶性有机碳和微生物量碳含量分别提高了17.6%和30.9%、60.4%和112.7%、6.5%和24.3%、42.2%和45.3%,说明生草栽培措施有利于改良果园土壤结构,提高土壤肥力。梯台生草模式土壤惰性有机碳含量也比顺坡清耕和梯台清耕模式分别提高39.1%和39.0%,说明生草栽培也可促进果园土壤稳定性碳库的增加。
以福建尤溪玉池果園水土流失定位觀測點為平檯,研究瞭不同水保工程措施對油桃園土壤有機碳及其組分的影響。結果錶明,梯檯清耕和梯檯生草模式油桃園土壤有機碳密度較順坡清耕模式分彆提高18.3%和34.7%。梯檯生草模式土壤有機碳含量分彆比順坡清耕和梯檯清耕模式提高15.3%和46.5%,顆粒有機碳、輕組有機碳、可溶性有機碳和微生物量碳含量分彆提高瞭17.6%和30.9%、60.4%和112.7%、6.5%和24.3%、42.2%和45.3%,說明生草栽培措施有利于改良果園土壤結構,提高土壤肥力。梯檯生草模式土壤惰性有機碳含量也比順坡清耕和梯檯清耕模式分彆提高39.1%和39.0%,說明生草栽培也可促進果園土壤穩定性碳庫的增加。
이복건우계옥지과완수토류실정위관측점위평태,연구료불동수보공정조시대유도완토양유궤탄급기조분적영향。결과표명,제태청경화제태생초모식유도완토양유궤탄밀도교순파청경모식분별제고18.3%화34.7%。제태생초모식토양유궤탄함량분별비순파청경화제태청경모식제고15.3%화46.5%,과립유궤탄、경조유궤탄、가용성유궤탄화미생물량탄함량분별제고료17.6%화30.9%、60.4%화112.7%、6.5%화24.3%、42.2%화45.3%,설명생초재배조시유리우개량과완토양결구,제고토양비력。제태생초모식토양타성유궤탄함량야비순파청경화제태청경모식분별제고39.1%화39.0%,설명생초재배야가촉진과완토양은정성탄고적증가。
Soil organic carbon(C)is greatly influenced by soil management practices. Here we compared the effects of different soil conser-vation measures on soil organic C fractions in nectarine orchard. There were three soil management practices:slope plus clean tillage(T1), terrace plus clean tillage(T2)and terrace plus sod culture(Arachis pintoi mulching)(T3). Soil organic C content in T3 orchard was 46.5%higher than in T1 and 15.3% higher than in T2. Compared with T1, the contents of particulate organic C(POC), light fraction of organic C (LFOC), dissolved organic C(DOC)and microbial biomass C(MBC)increased by 17.6%, 60.4%, 6.5%and 42.2% in T2 orchard, and 30.9%, 112.7%, 24.3% and 45.3% in T3 , respectively. Resistant organic C content in T3 was over 39% greater than in T1 or T2. Our results show that sod culture would increase soil organic C and improve soil fertility.