南京林业大学学报(自然科学版)
南京林業大學學報(自然科學版)
남경임업대학학보(자연과학판)
JOURNAL OF NANJING FORESTRY UNIVERSITY(NATURAL SCIENCE EDITION)
2009年
6期
69-73
,共5页
王良桂%张焕朝%朱强根%蒋永丰%颜开义%王福好
王良桂%張煥朝%硃彊根%蔣永豐%顏開義%王福好
왕량계%장환조%주강근%장영봉%안개의%왕복호
杨树人工林%连栽代次%土壤氮素矿质化%原位
楊樹人工林%連栽代次%土壤氮素礦質化%原位
양수인공림%련재대차%토양담소광질화%원위
poplar plantation%successive rotation%soil nitrogen mineralization%in situ
采用土柱离子交换包法,研究了苏北地区不同连栽代次杨树人工林土壤氮矿化的状况及耕作措施对二代杨树林土壤氮矿化的影响.结果表明:不同代次的杨树人工林土壤氯化速率的季节变化较为一致,二代林土壤的氨化速率和一代林相比,并未出现明显的降低,有的月份(4、7月)甚至高于一代林.二代林的硝化速率和净氮矿化速率明显低于一代林,尤其是在3、4、5月份.耕作措施虽然增加了二代林土壤氮素年氯化量、硝化量和矿化量,但由于也相应地增加了年淋溶量(约占年矿化量的49.15%),因此土壤中的无机氮含量反而低于免耕处理.
採用土柱離子交換包法,研究瞭囌北地區不同連栽代次楊樹人工林土壤氮礦化的狀況及耕作措施對二代楊樹林土壤氮礦化的影響.結果錶明:不同代次的楊樹人工林土壤氯化速率的季節變化較為一緻,二代林土壤的氨化速率和一代林相比,併未齣現明顯的降低,有的月份(4、7月)甚至高于一代林.二代林的硝化速率和淨氮礦化速率明顯低于一代林,尤其是在3、4、5月份.耕作措施雖然增加瞭二代林土壤氮素年氯化量、硝化量和礦化量,但由于也相應地增加瞭年淋溶量(約佔年礦化量的49.15%),因此土壤中的無機氮含量反而低于免耕處理.
채용토주리자교환포법,연구료소북지구불동련재대차양수인공림토양담광화적상황급경작조시대이대양수림토양담광화적영향.결과표명:불동대차적양수인공림토양록화속솔적계절변화교위일치,이대림토양적안화속솔화일대림상비,병미출현명현적강저,유적월빈(4、7월)심지고우일대림.이대림적초화속솔화정담광화속솔명현저우일대림,우기시재3、4、5월빈.경작조시수연증가료이대림토양담소년록화량、초화량화광화량,단유우야상응지증가료년림용량(약점년광화량적49.15%),인차토양중적무궤담함량반이저우면경처리.
By the method of in situ soil core-ion exchange resin bag (ISC-IERB) , the characteristics of soil nitrogen mineralization in the different successive rotation stands of poplar plantation (the first rotation of four-year-old and the second rotation of four-year-old) and the effects of tillage on the soil nitrogen mineralization in the second rotation of four-year-old poplar plantation were studied in north Jiangsu province. The results showed that the seasonal changes of soil ammonifica-tion rate in two rotation stands were similar. The soil ammonification rate in the second rotation stand was not obviously decreased and even increased in April and July, compared with the first rotation stand. However, the soil nitrification rate and net mineralization rate in the second rotation stand were significantly lower than that in the first rotation stand, especially in March, April and May. Compared with the no-tillage, the annual ammonified, nitrified and mineralized nitrogen of soil in the second rotation stand treated with the tillage were increased. Meanwhile, the tillage treatment was obviously increased the soil N lose by leaching which accounted for 49.15% of the total annual mineralized N, therefore soil inorganic N content was lower in the stand treated with tillage than that in the stand with no-tillage.