河北农业科学
河北農業科學
하북농업과학
JOURNAL OF HEBEI AGRICULTURAL SCIENCES
2012年
2期
46-50,58
,共6页
茹淑华%张国印%耿暖%王凌%孙世友%王朋峰
茹淑華%張國印%耿暖%王凌%孫世友%王朋峰
여숙화%장국인%경난%왕릉%손세우%왕붕봉
施肥措施%夏玉米%产量%土壤硝态氮%淋失
施肥措施%夏玉米%產量%土壤硝態氮%淋失
시비조시%하옥미%산량%토양초태담%림실
Fertilization measure%Summer maize%Yield%Soil nitrate%Leaching
为筛选夏玉米生产上科学合理的施肥方式,以郑单958为试验材料,在偏沙型和偏粘型2种土体质地构型上研究了等氮量的不同施肥措施(习惯施肥、玉米专用肥、100%缓控释肥、30%尿素+70%缓控释肥)对夏玉米产量、土壤硝态氮淋失和氮肥利用率的影响。结果表明:与习惯施肥相比,30%尿素+70%缓控释肥处理单季玉米增产9.36%,习惯施肥措施不仅会造成根层土壤剖面中硝态氮的累积,还会进一步引起硝态氮向深层地下水的淋失;2种土体质地构型下,30%尿素+70%缓控释肥处理的氮肥利用率分别较习惯施肥提高了35.65%和23.02%。用尿素代替30%缓控释肥(30%尿素+70%缓控释肥)的新型施肥措施,既能保证夏玉米苗期速效氮素的供应,又能明显降低硝态氮在土壤中的累积。
為篩選夏玉米生產上科學閤理的施肥方式,以鄭單958為試驗材料,在偏沙型和偏粘型2種土體質地構型上研究瞭等氮量的不同施肥措施(習慣施肥、玉米專用肥、100%緩控釋肥、30%尿素+70%緩控釋肥)對夏玉米產量、土壤硝態氮淋失和氮肥利用率的影響。結果錶明:與習慣施肥相比,30%尿素+70%緩控釋肥處理單季玉米增產9.36%,習慣施肥措施不僅會造成根層土壤剖麵中硝態氮的纍積,還會進一步引起硝態氮嚮深層地下水的淋失;2種土體質地構型下,30%尿素+70%緩控釋肥處理的氮肥利用率分彆較習慣施肥提高瞭35.65%和23.02%。用尿素代替30%緩控釋肥(30%尿素+70%緩控釋肥)的新型施肥措施,既能保證夏玉米苗期速效氮素的供應,又能明顯降低硝態氮在土壤中的纍積。
위사선하옥미생산상과학합리적시비방식,이정단958위시험재료,재편사형화편점형2충토체질지구형상연구료등담량적불동시비조시(습관시비、옥미전용비、100%완공석비、30%뇨소+70%완공석비)대하옥미산량、토양초태담림실화담비이용솔적영향。결과표명:여습관시비상비,30%뇨소+70%완공석비처리단계옥미증산9.36%,습관시비조시불부회조성근층토양부면중초태담적루적,환회진일보인기초태담향심층지하수적림실;2충토체질지구형하,30%뇨소+70%완공석비처리적담비이용솔분별교습관시비제고료35.65%화23.02%。용뇨소대체30%완공석비(30%뇨소+70%완공석비)적신형시비조시,기능보증하옥미묘기속효담소적공응,우능명현강저초태담재토양중적루적。
Using maize variety Zhengdan 958 as the material, the effects of different equal nitrogen amount fertilization measures on the maize yield, soil nitrate leaching and nitrogen use efficiency on two types of soil texture were studied. The results showed that compared with the traditional fertilization, the treatment of 30% urea and 70% controlled-release urea could increase the maize yield by 9.36%. The traditional fertilization could not only cause the accumulation of soil nitrate nitrogen in root layer, but also cause the nitrate nitrogen leaching to groundwater. Compared with traditional fertilization, the nitrogen use efficiency of 30% urea and 70% controlledrelease urea were increased by 35.65% and 23.02% on two types of soil texture, respectively. Using urea instead of controlled-release urea could ensure the available nitrogen supply in seedling stage, and significantly reduce the nitrate accumulation in soil.
