农业工程学报
農業工程學報
농업공정학보
2013年
15期
116-125
,共10页
张建兵%杨劲松%姚荣江%余世鹏%李芙荣%候晓静%金雯晖%王相平
張建兵%楊勁鬆%姚榮江%餘世鵬%李芙榮%候曉靜%金雯暉%王相平
장건병%양경송%요영강%여세붕%리부영%후효정%금문휘%왕상평
肥料%土壤水分%盐分%有机肥%覆盖%作物生长%滩涂围垦农田%苏北
肥料%土壤水分%鹽分%有機肥%覆蓋%作物生長%灘塗圍墾農田%囌北
비료%토양수분%염분%유궤비%복개%작물생장%탄도위은농전%소북
fertilizers%soil moisture%salt%farmyard manure%mulch%crop growth%reclaimed coastal tidal flat soil%northern Jiangsu Province
针对土壤盐碱障碍因子普遍存在于新围垦滩涂农田并严重抑制作物生长的问题,设置了有机肥(鸡粪堆肥)、薄膜覆盖、秸秆覆盖及有机肥+薄膜覆盖、有机肥+秸秆覆盖组合措施,研究其对土壤水盐的调控作用与对作物生长的促进效应。结果表明:各调控均有利于滩涂围垦农田土壤水盐环境的改善、作物的生长,并整体表现出组合措施优于单项措施、秸秆覆盖优于薄膜覆盖的趋势。其中,有机肥+秸秆覆盖组合措施为调控措施中的优化处理,表现在土壤含水量高、土壤电导率与pH值低,作物产量高,增产率达100%以上。单施有机肥虽能增加土壤含水量、降低土壤pH值,但其土壤电导率升高了11.56%,产生了一定的次生盐渍化风险,与覆盖措施的组合能有效控制土壤盐分的表聚,使其显著低于对照,从而保证了有机肥的持续使用。该研究表明,有机肥与覆盖传统农艺措施的有效组合可较好地调控滩涂围垦农田土壤水盐,促进作物增产,该研究为苏北滩涂新垦农田盐碱障碍因子的消减及作物增产提供了一种新途径,也为当地有机肥及秸秆资源的可持续利用提供了依据。
針對土壤鹽堿障礙因子普遍存在于新圍墾灘塗農田併嚴重抑製作物生長的問題,設置瞭有機肥(鷄糞堆肥)、薄膜覆蓋、秸稈覆蓋及有機肥+薄膜覆蓋、有機肥+秸稈覆蓋組閤措施,研究其對土壤水鹽的調控作用與對作物生長的促進效應。結果錶明:各調控均有利于灘塗圍墾農田土壤水鹽環境的改善、作物的生長,併整體錶現齣組閤措施優于單項措施、秸稈覆蓋優于薄膜覆蓋的趨勢。其中,有機肥+秸稈覆蓋組閤措施為調控措施中的優化處理,錶現在土壤含水量高、土壤電導率與pH值低,作物產量高,增產率達100%以上。單施有機肥雖能增加土壤含水量、降低土壤pH值,但其土壤電導率升高瞭11.56%,產生瞭一定的次生鹽漬化風險,與覆蓋措施的組閤能有效控製土壤鹽分的錶聚,使其顯著低于對照,從而保證瞭有機肥的持續使用。該研究錶明,有機肥與覆蓋傳統農藝措施的有效組閤可較好地調控灘塗圍墾農田土壤水鹽,促進作物增產,該研究為囌北灘塗新墾農田鹽堿障礙因子的消減及作物增產提供瞭一種新途徑,也為噹地有機肥及秸稈資源的可持續利用提供瞭依據。
침대토양염감장애인자보편존재우신위은탄도농전병엄중억제작물생장적문제,설치료유궤비(계분퇴비)、박막복개、갈간복개급유궤비+박막복개、유궤비+갈간복개조합조시,연구기대토양수염적조공작용여대작물생장적촉진효응。결과표명:각조공균유리우탄도위은농전토양수염배경적개선、작물적생장,병정체표현출조합조시우우단항조시、갈간복개우우박막복개적추세。기중,유궤비+갈간복개조합조시위조공조시중적우화처리,표현재토양함수량고、토양전도솔여pH치저,작물산량고,증산솔체100%이상。단시유궤비수능증가토양함수량、강저토양pH치,단기토양전도솔승고료11.56%,산생료일정적차생염지화풍험,여복개조시적조합능유효공제토양염분적표취,사기현저저우대조,종이보증료유궤비적지속사용。해연구표명,유궤비여복개전통농예조시적유효조합가교호지조공탄도위은농전토양수염,촉진작물증산,해연구위소북탄도신은농전염감장애인자적소감급작물증산제공료일충신도경,야위당지유궤비급갈간자원적가지속이용제공료의거。
Soil salinity, a typical characteristic of reclaimed coastal tidal flat soil, restrains soil quality improvement and crop growth seriously in coastal area of northern Jiangsu Province. Careful soil management is important for the soil salt elimination and crop promotion. Farmyard manure (FYM) and mulch applications, which affect soil properties and plant significantly, are regarded as an effective improvement pattern of saline land. As a conventional management in the study region, FYM and mulch are used for the amendment of the new reclaimed tidal flat regularly, but little is known about their effects on crop growth and the dynamic of soil water and salt. A study was conducted on a typical coastal tidal flat saline land to evaluate the effects of FYM, polyethylene film mulch (PM), straw mulch (SM), FYM combined with PM (FYM+PM), FYM combined with SM (FYM + SM) on soil water, soil salinity and crop growth in 2011 and 2012. CK represented no FYM and mulch application and served as a control. Dynamic of soil properties were observed, such as soil water content, electric conductivity (EC) and pH, and the growing indicators of maize and barley, including plant height, stem diameter, leaf area index, biomass and yield. The experiment, laid out in a randomized complete block design with three replications, was studied in Huanghaiyuan Farm, which specialized in the agricultural utilization for coastal tidal flat. Results of three continuous crop cultivations indicated that, soil water and salt fluctuated strongly and were affected by all of the treatments. Compared to the CK, all of the treatments increased soil water content, although with a quantitative difference. Soil salt, indicated by soil electric conductivity, was controlled well by PM and SM, with the relative decreasing percent of 23.91%,28.57%,70.28%and 27.17%,40.00%,49.51%respectively after the three harvest time. However, FYM and mulch had weak effects on soil pH. FYM application had a risk of secondary salinization because of the increased soil salt content caused by the high salt content of chicken manure;however, the increasing trend was controlled when FYM application was combined with mulch management. Growth of maize and barley were promoted significantly with high growth index and yield and kept in the order of FYM+SM>FYM+PM>FYM>SM>PM>CK. It was considered that FYM+SM was the best treatment for salinity elimination and crop promotion of the reclaimed coastal tidal flat saline land, due to the higher soil water content, lower soil electric conductivity and pH and the better plant performance under FYM+SM. Yield of maize and barley were increased significantly by FYM+SM more than 100%, and reached the average yield of the desalted soil, which reclaimed for a long time in the study area. Therefore, the new cultivation pattern of FYM+SM is recommend for soil quality and productivity improvement of the reclaimed coastal tidal flat saline land and the sustainable utilization of FYM, crop straw in the coastal area of northern Jiangsu Province.