植物营养与肥料学报
植物營養與肥料學報
식물영양여비료학보
PLANT NUTRITION AND FERTILIZER SCIENCE
2014年
2期
318-325
,共8页
严君%韩晓增%丁娇%王影
嚴君%韓曉增%丁嬌%王影
엄군%한효증%정교%왕영
黑土%大豆%根瘤%产量%氮%磷
黑土%大豆%根瘤%產量%氮%燐
흑토%대두%근류%산량%담%린
black soil%soybean%nodule%yield%nitrogen%phosphorus
氮肥和磷肥显著影响大豆的结瘤和产量。然而在土壤肥力较高、速效养分有效性差的东北地区,有关氮肥和磷肥施用量对大豆结瘤和产量影响的研究较少。本试验采用裂区田间试验,设置3个氮( N )水平(0、20和50 kg/hm2)和3个磷( P)水平(0、20和40 kg/hm2),研究氮、磷及其交互作用对大豆生长发育、结瘤特征及产量的影响。结果表明:单施氮肥大豆生物量和产量随着施氮量的增加而增加,而根瘤数量、干重、大小和结瘤指数呈逐渐下降的趋势。单施磷肥促进大豆生物量、产量、根瘤数量、干重、大小和结瘤指数的增加,但其增幅低于施氮处理下的增幅。氮×磷对大豆生长和产量促进作用高于单施氮和单施磷处理,但差异不显著;氮×磷处理下的根瘤数量、干重、大小和结瘤指数低于单施磷处理;氮×磷处理下N2( N 50 kg/hm2)处理下的大豆根瘤数量、干重、大小和结瘤指数高于N1处理( N 20 kg/hm2)下的,随着施磷量的增加大豆根瘤数量、干重、大小和结瘤指数增加,施磷能够抵消氮对大豆根瘤产生和形成的抑制。氮、磷及其交互作用对大豆根瘤的影响都是直接的,并且不是通过促进大豆生长间接促进的。因此氮和磷均是限制东北地区大豆结瘤和产量的因素,但氮是主导因素。若要获得大豆高产,氮肥施用量需要控制在50 kg/hm2,磷肥在40 kg/hm2;但若想最大的发挥大豆的结瘤固氮功能,那么应该不施或者减少氮肥的施用量到20 kg/hm2,磷肥仍在40 kg/hm2。
氮肥和燐肥顯著影響大豆的結瘤和產量。然而在土壤肥力較高、速效養分有效性差的東北地區,有關氮肥和燐肥施用量對大豆結瘤和產量影響的研究較少。本試驗採用裂區田間試驗,設置3箇氮( N )水平(0、20和50 kg/hm2)和3箇燐( P)水平(0、20和40 kg/hm2),研究氮、燐及其交互作用對大豆生長髮育、結瘤特徵及產量的影響。結果錶明:單施氮肥大豆生物量和產量隨著施氮量的增加而增加,而根瘤數量、榦重、大小和結瘤指數呈逐漸下降的趨勢。單施燐肥促進大豆生物量、產量、根瘤數量、榦重、大小和結瘤指數的增加,但其增幅低于施氮處理下的增幅。氮×燐對大豆生長和產量促進作用高于單施氮和單施燐處理,但差異不顯著;氮×燐處理下的根瘤數量、榦重、大小和結瘤指數低于單施燐處理;氮×燐處理下N2( N 50 kg/hm2)處理下的大豆根瘤數量、榦重、大小和結瘤指數高于N1處理( N 20 kg/hm2)下的,隨著施燐量的增加大豆根瘤數量、榦重、大小和結瘤指數增加,施燐能夠牴消氮對大豆根瘤產生和形成的抑製。氮、燐及其交互作用對大豆根瘤的影響都是直接的,併且不是通過促進大豆生長間接促進的。因此氮和燐均是限製東北地區大豆結瘤和產量的因素,但氮是主導因素。若要穫得大豆高產,氮肥施用量需要控製在50 kg/hm2,燐肥在40 kg/hm2;但若想最大的髮揮大豆的結瘤固氮功能,那麽應該不施或者減少氮肥的施用量到20 kg/hm2,燐肥仍在40 kg/hm2。
담비화린비현저영향대두적결류화산량。연이재토양비력교고、속효양분유효성차적동북지구,유관담비화린비시용량대대두결류화산량영향적연구교소。본시험채용렬구전간시험,설치3개담( N )수평(0、20화50 kg/hm2)화3개린( P)수평(0、20화40 kg/hm2),연구담、린급기교호작용대대두생장발육、결류특정급산량적영향。결과표명:단시담비대두생물량화산량수착시담량적증가이증가,이근류수량、간중、대소화결류지수정축점하강적추세。단시린비촉진대두생물량、산량、근류수량、간중、대소화결류지수적증가,단기증폭저우시담처리하적증폭。담×린대대두생장화산량촉진작용고우단시담화단시린처리,단차이불현저;담×린처리하적근류수량、간중、대소화결류지수저우단시린처리;담×린처리하N2( N 50 kg/hm2)처리하적대두근류수량、간중、대소화결류지수고우N1처리( N 20 kg/hm2)하적,수착시린량적증가대두근류수량、간중、대소화결류지수증가,시린능구저소담대대두근류산생화형성적억제。담、린급기교호작용대대두근류적영향도시직접적,병차불시통과촉진대두생장간접촉진적。인차담화린균시한제동북지구대두결류화산량적인소,단담시주도인소。약요획득대두고산,담비시용량수요공제재50 kg/hm2,린비재40 kg/hm2;단약상최대적발휘대두적결류고담공능,나요응해불시혹자감소담비적시용량도20 kg/hm2,린비잉재40 kg/hm2。
The N and P fertilization impact the nodulation and yield of soybean significantly , however , there are not many reports on these in the Northeast China where the soil fertility is relatively high .Split plot field experiments were conducted to study the effects of N (0, 20 and 50 kg/ha), P (0, 20 and 40 kg/ha) and N ×P interaction on soybean growth , nodulation characteristics and yield .The results show that the high rate of individual N application increases the biological and grain yield of soybean , but decreases the number , dry weight , size and nodulation index of nodules .High rate of individual P fertilizer increases the grain yield , nodule number , dry weight , size , nodulation index , although the increments in grain yield are lower than those of the N treatments .Compared with the control and the individual N or P application , the interactive effect of N and P ( N ×P) demonstrates the highest biomass and yield, but there are no significant differences among the N , P and N ×P treatments.The nodule number, dry weight, size and nodulation index with N ×P are lower than those of the individual P application , and the nodule number, dry weight, size and nodulation index of the N2 treatment (N 50 kg/ha) are higher than those of the N1 treatment (N 20 kg/ha).The increased P application rate offsets the negative effect of high N application rate on nodulation to some extent .The effects of N , P and N ×P treatments on nodulation characteristics indicate that the N and P have direct effect on the nodulation , and not via plant growth .Therefore , both N and P are the key factors to the nodulation and yield of soybean in Northeast China .To maximize soybean yield , the N and P application rates should be at 50 kg/ha and 40 kg/ha, and to maximize soybean nodulation and nitrogen fixation , the N and P application rates should be at 0, 20 N kg/ha and 40 P kg/ha.
