大气CO2浓度和供氮水平对油菜前期生长及氮素吸收利用的影响

生态学杂志

大气CO₂浓度和供氮水平对油菜前期生长及氮素吸收利用的影响

王小娟^1,2,王文明¹,张振华¹,张力¹,杨春¹,宋海星^1**,官春云³

（¹湖南农业大学资源环境学院，土壤肥料资源高效利用国家工程实验室，农田污染控制与农业资源利用湖南省重点实验室，植物营养湖南省普通高等学校重点实验室，长沙 410128；² 海南省农业科学院，海口 571100；^3国家油料改良中心湖南分中心，长沙 410128）

出版日期:2014-01-10 发布日期:2014-01-10

Effects of atmospheric CO₂ concentrations and N application levels on the growth, N uptake and utilization of oilseed rape during vegetative stage.

WANG Xiao-juan^1,2, WANG Wen-ming¹, ZHANG Zhen-hua¹, ZHANG Li¹, YANG Chun¹, SONG Hai-xing^1**, GUAN Chun-yun³

(¹ College of Resources and Environmental Sciences, Hunan Agricultural University, Hunan Provincial Key Laboratory of Farmland Pollution Control and Agricultural Resources Use, Hunan Provincial Key Laboratory of Plant Nutrition in Common University, Changsha 410128, China; ² Hainan Province Academy of Agricultural Science, Haikou 571100, China; ³National Center of Oilseed Crops Improvement, Hunan Branch, Changsha 410128, China)

Online:2014-01-10 Published:2014-01-10

摘要/Abstract

摘要： 采用砂培试验，在2种CO₂浓度（自然CO₂浓度400 μmol·mol^-1和高CO₂浓度700 μmol·mol^-1）和2种供氮水平（常氮15 mmol N·L^-1和氮胁迫5 mmol N·L^-1）下，研究了油菜营养生长阶段的干物质累积和氮素吸收利用的变化。结果表明:高CO₂浓度条件下，油菜株高、根茎粗和干物质累积量增加，其中，常氮条件下，根茎粗和地上部干重的增加幅度大于氮胁迫条件，株高和根系干重增加幅度则常氮条件小于氮胁迫条件；高CO₂浓度下，根体积、根系活跃吸收面积和总吸收面积在2个供氮水平下均增加，而一级侧根数只在常氮条件下增加，根长只在氮胁迫条件下增加；高CO₂浓度条件下，油菜各器官含氮量下降，其中，叶片和根系的含氮素量下降幅度明显大于茎；高CO₂浓度条件下，正常供氮时根、茎、叶氮素累积量均增加，氮胁迫时茎氮素累积量增加，而根和叶的氮素累积量减少；高CO₂浓度条件下，氮素吸收效率、氮素利用效率和氮效率均增加，常氮条件下增加幅度大于低氮条件，其中，氮素利用效率对氮水平的响应更加明显。

关键词: 刈割, 微生物量, 可提取碳, 放牧, 可提取氮

Abstract: Dry biomass and changes of nitrogen (N) uptake and utilization in oilseed rape during vegetative growth stage at two levels of CO₂ (natural: 400 μmol·mol^-1, elevated: 700 μmol·mol^-1) and two levels of N application (normal: 15 mmol·L^-1, limited: 5 mmol·L^-1) were studied in a sand culture experiment. Results showed that plant height, basal diameter and dry biomass were increased under the elevated CO₂ concentration, and the increment of either basal diameter or dry biomass at the normal N level was higher than that at the limited N level, but the increased degree of plant height and root dry weight showed an opposite pattern. Regardless of the N application levels, root volume, total active absorption area were increased under the elevated CO₂ concentration, but number of the first lateral root was only increased at the normal N level, root length was only increased at the limited N level. N content in organs of oilseed rape was declined under the elevated CO₂ concentration, and the declined degree of N contents in leaves and roots was significantly higher than that of stems. Under the elevated CO₂ concentration, accumulation amount of N in roots, stems and leaves were increased at the normal N level, only increased in stems at the limited N level, and decreased in roots and leaves. N uptake efficiency, N use efficiency (NUE) and N efficiency were increased under the elevated CO₂ concentration, and increased degree at the normal N level was higher than at the limited N level, and the response of NUE to N application levels was more obvious.

Key words: extractable carbon, grazing, mowing, microbial biomass., extractable nitrogen

王小娟1,2,王文明1,张振华1,张力1,杨春1,宋海星1**,官春云3. 大气CO₂浓度和供氮水平对油菜前期生长及氮素吸收利用的影响[J]. 生态学杂志.

WANG Xiao-juan1,2, WANG Wen-ming1, ZHANG Zhen-hua1, ZHANG Li1, YANG Chun1, SONG Hai-xing1**, GUAN Chun-yun3. Effects of atmospheric CO₂ concentrations and N application levels on the growth, N uptake and utilization of oilseed rape during vegetative stage.[J]. cje.

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大气CO₂浓度和供氮水平对油菜前期生长及氮素吸收利用的影响

Effects of atmospheric CO₂ concentrations and N application levels on the growth, N uptake and utilization of oilseed rape during vegetative stage.

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