作物学报
作物學報
작물학보
ACTA AGRONOMICA SINICA
2013年
2期
292-299
,共8页
梁效贵%张经廷%周丽丽%李旭辉%周顺利*
樑效貴%張經廷%週麗麗%李旭輝%週順利*
량효귀%장경정%주려려%리욱휘%주순리*
夏玉米%植株氮浓度%临界氮稀释曲线%氮营养指数%氮营养诊断
夏玉米%植株氮濃度%臨界氮稀釋麯線%氮營養指數%氮營養診斷
하옥미%식주담농도%림계담희석곡선%담영양지수%담영양진단
Summer maize%Plant N concentration%Critical N dilution curve%N nutrition index%N nutrition diagnosis
为了验证玉米临界氮稀释曲线在我国华北地区的适用性,探讨以氮营养指数评价玉米氮营养状况的可行性,以郑单958为材料,设置5个氮肥处理(0、60、120、180和240 kg N hm–2),利用2年定位试验数据研究了夏玉米临界氮稀释曲线和氮营养指数.结果表明,一定范围内随着施氮量增加,地上部生物量(W)显著增长.玉米各生育时期不同氮肥处理的生物量和氮浓度数据可经统计分析分为限氮和非限氮两组,据此计算各生育时期临界氮浓度(Nc)并建立了夏玉米临界氮稀释曲线模型(Nc=34.914W-0.4134),模型参数与已有报道具有较好的相似性.根据模型推算的氮营养指数与相对氮累积量、相对地上部生物量和相对产量均具显著相关性.因此,利用临界氮稀释曲线和氮营养指数可以预测华北地区夏玉米植株临界氮含量和表征植株氮营养状况.
為瞭驗證玉米臨界氮稀釋麯線在我國華北地區的適用性,探討以氮營養指數評價玉米氮營養狀況的可行性,以鄭單958為材料,設置5箇氮肥處理(0、60、120、180和240 kg N hm–2),利用2年定位試驗數據研究瞭夏玉米臨界氮稀釋麯線和氮營養指數.結果錶明,一定範圍內隨著施氮量增加,地上部生物量(W)顯著增長.玉米各生育時期不同氮肥處理的生物量和氮濃度數據可經統計分析分為限氮和非限氮兩組,據此計算各生育時期臨界氮濃度(Nc)併建立瞭夏玉米臨界氮稀釋麯線模型(Nc=34.914W-0.4134),模型參數與已有報道具有較好的相似性.根據模型推算的氮營養指數與相對氮纍積量、相對地上部生物量和相對產量均具顯著相關性.因此,利用臨界氮稀釋麯線和氮營養指數可以預測華北地區夏玉米植株臨界氮含量和錶徵植株氮營養狀況.
위료험증옥미림계담희석곡선재아국화북지구적괄용성,탐토이담영양지수평개옥미담영양상황적가행성,이정단958위재료,설치5개담비처리(0、60、120、180화240 kg N hm–2),이용2년정위시험수거연구료하옥미림계담희석곡선화담영양지수.결과표명,일정범위내수착시담량증가,지상부생물량(W)현저증장.옥미각생육시기불동담비처리적생물량화담농도수거가경통계분석분위한담화비한담량조,거차계산각생육시기림계담농도(Nc)병건립료하옥미림계담희석곡선모형(Nc=34.914W-0.4134),모형삼수여이유보도구유교호적상사성.근거모형추산적담영양지수여상대담루적량、상대지상부생물량화상대산량균구현저상관성.인차,이용림계담희석곡선화담영양지수가이예측화북지구하옥미식주림계담함량화표정식주담영양상황.
In order to verify the applicability of critical nitrogen (N) dilution curve for summer maize in North China Plain, and the feasibility of N nutrition index (NNI) in evaluating N nutrition status of maize plant, a 2-year experiment with five N-fertilizer treatments (0, 60, 120, 180, and 240 kg N ha–1) was conducted using the cultivar Zhengdan 958. The results showed that the above ground biomass (W) increased significantly with increasing N-fertilizer application within a certain range. The data of above ground biomass and corresponding N concentration for each sampling stage were divided into N limited group and N non-limited group based on the statistical results, then the critical N concentration (Nc) was calculated and the critical N dilution curve model (Nc=34.914W–0.4134) for summer maize was established, and the model parameters had a good similarity to these reported. NNI calculated based on the critical N dilution curve model had a significant correlation with relative N uptake amount, or relative above ground biomass or relative yield. Therefore, critical N dilution curve and NNI can be used to predict plant Nc and characterize plant N status in summer maize in North China Plain.