江西农业大学学报
江西農業大學學報
강서농업대학학보
ACTA AGRICULTURAE UNIVERSITATIS JIANGXIENSIS
2013年
6期
1126-1133
,共8页
李木英%陈志攀%谭雪明%石庆华%潘晓华
李木英%陳誌攀%譚雪明%石慶華%潘曉華
리목영%진지반%담설명%석경화%반효화
直播稻%氮钾配比%氮素吸收利用
直播稻%氮鉀配比%氮素吸收利用
직파도%담갑배비%담소흡수이용
direct-seeded rice%nitrogen and potassium proportion%nitrogen uptake and utilization
在3个施氮量分别配合3个施钾量的条件下,探讨了不同氮钾配比对直播早稻氮素代谢和吸收利用的影响。结果表明,以N2 K3处理氮素总积累量和利用率最高。同一施氮水平下增施钾肥提高氮积累量,处理间差异显著。相同施钾水平下,施氮165 kg/hm2和210 kg/hm2,氮积累量差异不显著。提高直播稻氮、钾施用水平,增加了穗分化期之前氮素积累比例。增施氮、钾用量更有利于提高营养器官氮量分配比例,稻穗氮素分配比例随着施钾量的提高下降。各器官的氮素转运率和对稻穗氮的贡献率随着氮用量的提高而增加;施氮165 kg/hm2和210 kg/hm2水平下增施钾肥,叶片和叶鞘氮转运率下降;施氮210 kg/hm2水平下,施钾量对氮素转运率的影响规律不明显。 NR、GOGAT、GS活性,抽穗前随着施氮量的增加而提高;抽穗后通常N2最高。NR、GOGAT、GS活性随着钾肥量增加而提高。3个施氮水平中N2氮肥农学利用率最高。同一施氮水平增加钾肥用量提高氮肥利用率,在中、低氮水平下效果显著。增施氮、钾肥,氮素收获指数下降。直播稻栽培施氮量为165 kg/hm2、施钾量为210 kgh/m 2为最佳配组。
在3箇施氮量分彆配閤3箇施鉀量的條件下,探討瞭不同氮鉀配比對直播早稻氮素代謝和吸收利用的影響。結果錶明,以N2 K3處理氮素總積纍量和利用率最高。同一施氮水平下增施鉀肥提高氮積纍量,處理間差異顯著。相同施鉀水平下,施氮165 kg/hm2和210 kg/hm2,氮積纍量差異不顯著。提高直播稻氮、鉀施用水平,增加瞭穗分化期之前氮素積纍比例。增施氮、鉀用量更有利于提高營養器官氮量分配比例,稻穗氮素分配比例隨著施鉀量的提高下降。各器官的氮素轉運率和對稻穗氮的貢獻率隨著氮用量的提高而增加;施氮165 kg/hm2和210 kg/hm2水平下增施鉀肥,葉片和葉鞘氮轉運率下降;施氮210 kg/hm2水平下,施鉀量對氮素轉運率的影響規律不明顯。 NR、GOGAT、GS活性,抽穗前隨著施氮量的增加而提高;抽穗後通常N2最高。NR、GOGAT、GS活性隨著鉀肥量增加而提高。3箇施氮水平中N2氮肥農學利用率最高。同一施氮水平增加鉀肥用量提高氮肥利用率,在中、低氮水平下效果顯著。增施氮、鉀肥,氮素收穫指數下降。直播稻栽培施氮量為165 kg/hm2、施鉀量為210 kgh/m 2為最佳配組。
재3개시담량분별배합3개시갑량적조건하,탐토료불동담갑배비대직파조도담소대사화흡수이용적영향。결과표명,이N2 K3처리담소총적루량화이용솔최고。동일시담수평하증시갑비제고담적루량,처리간차이현저。상동시갑수평하,시담165 kg/hm2화210 kg/hm2,담적루량차이불현저。제고직파도담、갑시용수평,증가료수분화기지전담소적루비례。증시담、갑용량경유리우제고영양기관담량분배비례,도수담소분배비례수착시갑량적제고하강。각기관적담소전운솔화대도수담적공헌솔수착담용량적제고이증가;시담165 kg/hm2화210 kg/hm2수평하증시갑비,협편화협초담전운솔하강;시담210 kg/hm2수평하,시갑량대담소전운솔적영향규률불명현。 NR、GOGAT、GS활성,추수전수착시담량적증가이제고;추수후통상N2최고。NR、GOGAT、GS활성수착갑비량증가이제고。3개시담수평중N2담비농학이용솔최고。동일시담수평증가갑비용량제고담비이용솔,재중、저담수평하효과현저。증시담、갑비,담소수획지수하강。직파도재배시담량위165 kg/hm2、시갑량위210 kgh/m 2위최가배조。
Under the condition of different proportion of three nitrogen amounts with three potassium a -mounts ,the effects of different proportions of nitrogen and potassium amounts on the nitrogen absorption and u -tilization were discussed .The result indicated:the total accumulation and utilization of nitrogen were the highest in the N2 K3 treatment.At the same nitrogen level,the nitrogen accumulation increased with potassium fertiliz-er amount,there were significant differences among different treatments.The nitrogen accumulation showed no significant difference when the nitrogen amount was 165 kg/hm2 and 210 kg/hm2 at the same level of potassi-um fertilization.The increase of nitrogen and potassium amounts was conducive to raising nitrogen accumulation before the panicle differentiation stage of direct-seeded rice .The increase of nitrogen and potassium amounts was conducive to raising the nitrogen distribution proportions in vegetative organs ,and nitrogen distribution pro-portion in panicle decreased with increase of amount of potassium applied .The nitrogen translocation rate and contribution rate of each organ nitrogen to grain increased with the increase of nitrogen fertilizer amount .The ni-trogen transport rate of leaf and sheath declined with increased amount of potassium fertilizer at the level of ni -trogen fertilizer of 120 kg/hm2 and 165 kg/hm2 .Potassium fertilizer had obvious influence on the nitrogen translocation rate at the level of nitrogen amount of 210 kg/hm2.The activites of NR,GOGAT,GS increased with nitrogen fertilization before heading .The activity of nitrogen metabolism enzyme of N 2 treatment was the highest usually after heading .The activites of NR,GOGAT,GS increased with potassium fertilizer .The nitrogen agronomy utilization ratio of N 2 was the highest at three nitrogen fertilizer levels .Increase of potassium fertilizer amount improved the utilization rate of nitrogen with the same amount of nitrogen fertilization ,this effect was significant at low nitrogen levels .The increase of fertilization amount of nitrogen and potassium decreased the harvest index of nitrogen .165 kg/hm2 of nitrogen and 210 kg/hm2 of potassium made the best coordination group for cultivation of direct-seeded rice .