作物学报
作物學報
작물학보
Acta Agronomica Sinica
2016年
1期
113-122
,共10页
吴春红%刘庆%孔凡美%李欢%史衍玺
吳春紅%劉慶%孔凡美%李歡%史衍璽
오춘홍%류경%공범미%리환%사연새
紫甘薯%氮肥用量%产量%氮效率
紫甘藷%氮肥用量%產量%氮效率
자감서%담비용량%산량%담효솔
Purple sweetpotato%Nitrogen application rate%Root yield%Nitrogen utilization
选取紫甘薯品种浙紫1号、宁紫2号和紫菁2号,设置3个施氮处理,即0(N0)、75(N1)和150(N2) kg hm–2纯氮,于2013—2014年2个生长季在青岛农业大学现代农业科技示范园进行大田试验,研究不同氮肥用量对块根产量、干物质累积速率、氮素累积量及氮素效率的影响。结果表明,施用氮肥不同程度地降低了浙紫1号和紫菁2号的薯块产量,其中,浙紫1号的N1、N2处理分别较N0处理降低12.64%和13.32%,紫菁2号分别降低3.94%和29.06%;宁紫2号N1处理产量略高于N0处理,两年分别较N0处理提高8.5%和3.4%,而N2处理块根产量显著低于N0处理。茎蔓生物量和氮素累积量随着施氮量的增加而增加,而收获指数、氮素收获指数和氮素利用效率逐渐降低。第1年N1、N2处理的茎蔓干物质累积量分别较N0处理提高2.7%~20.0%和12.3%~36.4%,第2年分别提高12.6%~51.9%和28.7%~85.5%。相关分析表明,块根产量与氮素效率各指标均呈显著或极显著正相关;而茎蔓生物量与收获指数、氮素收获指数及氮肥利用效率均呈极显著负相关(r=–0.615**,–0.704**,–0.663**)。肥沃土壤上施用氮肥会造成浙紫1号和紫菁2号的茎蔓旺长,光合产物向薯块转运比例降低,导致源库比例不协调,块根产量下降。宁紫2号对氮肥的需求相对较高,施用氮肥75 kg hm–2时鲜薯产量提高,而施氮量过高时薯块产量降低。因此,紫甘薯在含氮量较高的肥沃土壤上种植时,对氮肥的需求量较低,茎蔓和薯块的协调生长是提高块根产量和氮素利用效率的保障。
選取紫甘藷品種浙紫1號、寧紫2號和紫菁2號,設置3箇施氮處理,即0(N0)、75(N1)和150(N2) kg hm–2純氮,于2013—2014年2箇生長季在青島農業大學現代農業科技示範園進行大田試驗,研究不同氮肥用量對塊根產量、榦物質纍積速率、氮素纍積量及氮素效率的影響。結果錶明,施用氮肥不同程度地降低瞭浙紫1號和紫菁2號的藷塊產量,其中,浙紫1號的N1、N2處理分彆較N0處理降低12.64%和13.32%,紫菁2號分彆降低3.94%和29.06%;寧紫2號N1處理產量略高于N0處理,兩年分彆較N0處理提高8.5%和3.4%,而N2處理塊根產量顯著低于N0處理。莖蔓生物量和氮素纍積量隨著施氮量的增加而增加,而收穫指數、氮素收穫指數和氮素利用效率逐漸降低。第1年N1、N2處理的莖蔓榦物質纍積量分彆較N0處理提高2.7%~20.0%和12.3%~36.4%,第2年分彆提高12.6%~51.9%和28.7%~85.5%。相關分析錶明,塊根產量與氮素效率各指標均呈顯著或極顯著正相關;而莖蔓生物量與收穫指數、氮素收穫指數及氮肥利用效率均呈極顯著負相關(r=–0.615**,–0.704**,–0.663**)。肥沃土壤上施用氮肥會造成浙紫1號和紫菁2號的莖蔓旺長,光閤產物嚮藷塊轉運比例降低,導緻源庫比例不協調,塊根產量下降。寧紫2號對氮肥的需求相對較高,施用氮肥75 kg hm–2時鮮藷產量提高,而施氮量過高時藷塊產量降低。因此,紫甘藷在含氮量較高的肥沃土壤上種植時,對氮肥的需求量較低,莖蔓和藷塊的協調生長是提高塊根產量和氮素利用效率的保障。
선취자감서품충절자1호、저자2호화자정2호,설치3개시담처리,즉0(N0)、75(N1)화150(N2) kg hm–2순담,우2013—2014년2개생장계재청도농업대학현대농업과기시범완진행대전시험,연구불동담비용량대괴근산량、간물질루적속솔、담소루적량급담소효솔적영향。결과표명,시용담비불동정도지강저료절자1호화자정2호적서괴산량,기중,절자1호적N1、N2처리분별교N0처리강저12.64%화13.32%,자정2호분별강저3.94%화29.06%;저자2호N1처리산량략고우N0처리,량년분별교N0처리제고8.5%화3.4%,이N2처리괴근산량현저저우N0처리。경만생물량화담소루적량수착시담량적증가이증가,이수획지수、담소수획지수화담소이용효솔축점강저。제1년N1、N2처리적경만간물질루적량분별교N0처리제고2.7%~20.0%화12.3%~36.4%,제2년분별제고12.6%~51.9%화28.7%~85.5%。상관분석표명,괴근산량여담소효솔각지표균정현저혹겁현저정상관;이경만생물량여수획지수、담소수획지수급담비이용효솔균정겁현저부상관(r=–0.615**,–0.704**,–0.663**)。비옥토양상시용담비회조성절자1호화자정2호적경만왕장,광합산물향서괴전운비례강저,도치원고비례불협조,괴근산량하강。저자2호대담비적수구상대교고,시용담비75 kg hm–2시선서산량제고,이시담량과고시서괴산량강저。인차,자감서재함담량교고적비옥토양상충식시,대담비적수구량교저,경만화서괴적협조생장시제고괴근산량화담소이용효솔적보장。
A two-year field experiment was conducted in the Modern Agricultural Science and Technology Demonstration Garden of Qingdao Agricultural University in 2013 and 2014. Three varieties of purple sweetpotato (Zhezi 1, Ningzi 2, and Zijing 2) were grown with three nitrogen rates (0, 75, and 150 kg ha–1 as N0, N1, N2 treatment, respectively). The storage root yield, dry matter accumulation rate, nitrogen accumulation amount and N use efficiency of the purple sweetpotato were investigated under the three N levels. The results showed that the storage root yields of Zhezi 1 and Zijing 2 in N1 and N2 treatments reduced to a varying degree compared with N0 treatment, with the decrease of 12.64%and 13.32%for Zhezi 1 and 3.94%and 29.06%for Zijing 2, respectively. Meanwhile, the storage root yield of Ningzi 2 in N1 treatment slightly increased by 8.5%and 3.4%in 2013 and 2014, respectively, compared with N0 treatment, but significantly decreased in N2 treatment compared with both N0 and N1 treatments. Compared with N0 treatment, the shoot biomass increased from 2.7%to 20.0%in N1 and from 12.3%to 36.4%in N2, in 2013, as well as from 12.6%to 51.9%in N1 and from 28.7%to 85.5%in N2, in 2014. However, the harvest index, N harvest index and nitrogen use efficiency gradually reduced with the increase N application. The correlation analysis showed that the root yield posi-tively correlated with all the nitrogen efficiency parameters, however the shoot biomass negatively correlated with the harvest index, nitrogen harvest index and nitrogen utilization efficiency (r=0.615**, 0.704**, 0.663**). The shoot biomass of Zhezi 1 and Zijing 2 increased with the increase of N application, showing the decrease of photosynthate from shoots to roots. The nitrogen demand of Ningzi 2 was higher than other two varieties, and the moderate nitrogen application could increase the root yield in fertile soil. In conclusion, the coordinated growth of shoots and roots is important for improving storage root yield and N use effi-ciency.
