通过在北京通州区的肥料定位试验,研究了不同施肥量对黄瓜产量、土壤硝态氮累积量及土壤水溶液硝态氮累积量的影响.结果表明,施氮量为260 kg/hm2时,达到作物最高产量,并取得最佳经济效益,从而确定该施肥量为最佳氮肥投入量;通过对不同施肥量条件下土壤NO3-N累积量的研究,将该研究区土壤对氮肥环境容量确定为N一年260 kg/hm2;通过测定作物收获后0~90 cm土壤硝态氮累积量能够有效反映对当茬作物的施肥量水平;土壤0~90 cm水溶液N03-N浓度随着氮肥投入量的增加而增大;作物收获后0~90 cm土壤水溶液中NO3-N含量与其土壤N03-N含量具有显著相关性;通过对0~90 cm土壤水溶液硝态氮含量的测定,能有效反映不同施肥水平对地下水的污染潜力.
蔡万涛
,
陈阜
,
张海林
,
雷杰
,
文新亚
. 不同氮肥水平对黄瓜产量、土壤硝态氮累积及土壤水溶液硝态氮含量的影响[J]. 华北农学报, 2009
, 24(3)
: 189
-193
.
DOI: 10.7668/hbnxb.2009.03.040
The effects of different nitrogen fertilization levels on yield of cucumber, the soil nitrate2N content and the soil solution nitrate2N concentration were studied by the experiment in Tongzhou of Beijing. The results sho wed that cu2 cumber yield was highest at the N rate 260 kg/ ha, also got best gross economic returns at this N rate, it was the best N rate input. This studied evaluated the soil nitrate2N content under different nitrogen fertilization levels, the results showed that the environment capacity of the soil to N fertilizer was preliminarily determined as N 260 kg/ (ha#year).An end2of 2 season soil NO3-2N test in the 0- 90 cm appeared tobe capable of evaluating cucumber N management practices. Nitrate N concentration in the soil solution increased as the total ofN applied to the soil.A significant relationship was found be2 tween the total mass of NO3-2N in the 019m soil profile following harvested andthe amount ofNO3-2N concentrations in the 019 m. It would be useful topredict the potential for nitrate(NO3-) leaching to the drinkingwater through the amount of NO3-2N concentrations test in the 019 m.
[1] 王兴仁,张福锁,ODOWSKI R.石灰性潮土对氮肥连续施用的环境承受力[J].北京农业大学学报,1995,21(增刊):94-98.
[2] 曹军.北京市农林科学院"七五"优秀科技论汇编[M].北京市农林科学院研究处,1993:225-230.
[3] Alberts E E,Spomer R A.Dissolved nitrogen in runoff from watersheds in conservation and conventional tillage[J].J Soil Water Conserv,1985(40):153-167.
[4] Both G W,Fox R H.Soil nitrate accumuiations following corn fertilized at various N rate in Pennsylvania[J].J Environ Qual,1990(19):243-248.
[5] Owens L B,Van Keuren R W,Edwards W M.Groundwater quality changes resuating from a surface bromide application to a pasture[J].J Environ Qual,1985(14):543-548.
[6] Bergstrom L.Nitrate leaching and drainage from annual and perennial crops in tile-drained plots and lysimeters[J].J En-viron Qual,1987(16):11-18.
[7] Randall G W,Huggins D R.Notrate losses through Subsur-face Tile Drainage in Conservation Reserve Program,Alfalfa,and Row Crop Systems[J].J Environ Qual,1997(26):1240-1247.
[8] 北京市农业区划办公室.北京土壤[M].1980.
[9] Paramgsivam S,Alva A K.Fate of nitrate and bromide in an unsaturated zone of a sandy soft under citrus production[J].J Environ Qual,2002,31:671-681.
[10] 刘曦,陈阜.京郊农业的肥料投入及环境威胁分析[J].云南农业大学学报:自然科学版,2008,23(6A).
[11] 曹军,徐秋明.不同控制肥品种对大白菜产量、氮素吸收和品质的影响[J].华北农学报,2006,21(3):41-45.
[12] 李世娟,周殿玺.限水灌溉下不同施肥量对小麦产量及氮素分配利用的影响[J].华北农学报,2001,16(3):86-91.
[13] Aniell D Halvorson,Curtis A Bouh.Nitrogen fertilizer re-quirmeats in'an annual dryland cropping system[J].Agrono-my Journal,1994,86:315-318.
[14] Ardell D Halvorson,Fran C Schweissing.Corn response to nitrogen fertilization in a soil with high residual nitrogen[J].Agronomy Journal,2005,97(4):1222-1229.
[15] 巨晓棠,张福锁.中国北方土壤硝态氮的累积及其环境的影响[J].生态环境,2003,12(1):24-28.
[16] Both G W,Fox R H.Soil Nitrate Aecumulatiom following ni-trogen-fertilized corn in pennsylvania[J].J Environ Qual,1990,19:243-248.
[17] 李志宏,王兴仁,曹一平.冬小麦.夏玉米轮作条件下氮肥后效的定量研究[J].北京农业大学学报,1995,21(增刊):29-32.
[18] Stevens W B,Hoeft R G.Fate of nitrogen-15 in a long-term nitrogen rate study:I.interactions with soil nitrogen[J].A-gronomy Journal,2005,97(4):1037-105.
[19] 陈志杰,张锋.不同灌溉方式对温室嫁接黄瓜根系分布影响的研究[J].中国生态农业学报,2008,16(4):874-877.
[20] 陈阜.粮食产量增加过程中氮素效率的研究[D].北京:北京农业大学,1991.
[21] John M,Jemison Jr,Richard H Fox.Nitrate leaching from ni-trogen-fertilized and manured corn measured with zero-Ten-sion Pan Lysimeters[J].J Environ Qual,1994,23:337-343.
[22] 李永久,张建君,饶敏杰.滴灌施肥灌溉的水氮运移的数学模拟与实验验证[J].水利学报,2005,36(8):932-938.
[23] Davies D B,Sylvester-Bradley R.The contribution of fertilis-er nitrogen to leachable nitrogen in the UK:A Review[J].J SOi Food Agric,1995,68,399-406.
