机构地区:[1]新疆石河子大学农学院/新疆生产建设兵团绿洲生态农业重点实验室,新疆石河子832003
出 处:《应用生态学报》2015年第12期3679-3686,共8页Chinese Journal of Applied Ecology
基 金:国家"十二五"科技支撑计划项目(2012BAD42B02)资助
摘 要:优化水、氮供应是实现作物高产与水肥资源高效利用的有效途径.本文研究了田间试验条件下水(4500、6750、9000 m^3·hm^(-2))、氮(0、225、330、435、540 kg·hm^(-2))互作对高密度(≥105000株·hm^(-2))滴灌玉米干物质积累、氮素吸收及产量的影响.结果表明:玉米干物质积累与吸氮量均随灌溉和施氮水平的增加明显升高,当施氮量大于435 kg·hm^(-2)和灌溉量大于9000 m^3·hm^(-2)时则呈减少趋势.完熟期玉米干物质积累对灌水的响应表现为W_(6750)(36359 kg·hm^(-2))>W_(9000)(35077kg·hm^(-2))>W_(4500)(33451 kg·hm^(-2))施氮对玉米吸氮量的变化表现为N_(435)(459.9 kg·hm^(-2))>N540(458.1 kg·hm^(-2))>N_(330)(416.3 kg·hm^(-2))>N_(225)(351.3kg·hm^(-2)),N_(435)比N_(330)、N_(220)分别升高9.1%、32.7%,N_(540)比N_(435)降低0.6%.在施氮量0~435kg·hm^(-2)范围内,玉米最大氮素吸收速率随施氮量增加而升高,在施氮量为435 kg·hm^(-2)时.达最大(6 57kg·hm^(-2)·d^(-1)).灌水与施氮均可显著增加玉米产量、穗粒数和穗粒质量,二者有明显的正交互作用且以氮为主效应.在施氮0~435 kg·hm^(-2)范围内,氮肥利用率随施氮量的增加而升高此后反而降低;灌溉水分生产率随施氮量升高而增加,随灌水量增加而明显下降,灌溉定额为4500~6750 m^3·hm^(-2)时,灌溉水分生产率可达2.57~3.80kg·m^(-3).玉米最高产量18072kg·hm^(-2)的施氮量为567.0 kg·hm^(-2).最佳经济施氮量为427.9~467.7kgN·hm^(-2)时,玉米产量在17109~17138 kg·hm^(-2),氮素偏生产力和氮肥利用率分别达122kg N·hm^(-2)和45.0%.水氮一体化施肥可实现滴灌玉米高产协同水、氮利用效率的共同提高.Water and nitrogen are two major limiting factors for upland crop growth and development in arid region.Optimizing regulation irrigation schedule,rates and coupling with N fertigation is an effective way for realizing crop production improvement as well as water and nutrient use efficiency enhancement.In the present study,a field trial was carried out to study the influence of water(4500,6750,9000 m^3·hm^-2) coupling with N(0,225,330,435,540 kg·hm^-2) supply on maize dry matter accumulation,N uptake,yield and nitrogen fertilizer use efficiency in drip irrigated high cultivated density(≥105000 plant·hm^-2) condition.There was an obvious tendency that the amounts of corn dry matter accumulated and plant N absorbed increased with levels of water and N supply,however,those decreased gradually when the N applied rate beyond 435 kg·hm^-2 and irrigation level above 9000 m^3·hm^-2.For instance,the effect of irrigation level on corn dry matter accumulation order exhibited W6750(36359 kg·hm^-2) W9000(35077 kg·hm^-2) W4500(33451kg·hm^-2),the sequence of amount of N absorbed showed N435(462.0 kg·hm^-2 N540(459.4kg·hm^-2) N330(423.4 kg·hm^-2) N225(348.1 kg·hm^-2),the amount of N absorbed in N435treatment increased by 9.1%and 32.7%,respectively,in contrast with treatments of N330 and N220,whereas,the amount of N absorbed in N540 decreased by 0.6%than that in N_(435) treatment.The highest N absorption rate increased with N application rate increasing within N supply range of 0-435kg·hm^-2,it reached peak value of 6.57 kg·hm^-2·d^-1 at N application rate of 435 kg·hm^-2,then had decline trend with increasing N rate.Both irrigation and N supply exerted a significant role on maize yield as well as yield component of kernel number per spike and kernel mass per spike.An obvious positive interaction was obtained between water and nitrogen;moreover,the effect of N on yield was substantially higher than that of irrigation.N fertilizer use efficiency increased with increasing N
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