基金項(xiàng)目:"七五"合作課題<南方丘陵和山區(qū)地帶林木施肥研究>、"八五"國家林業(yè)科技攻關(guān)<工業(yè)用材林施肥技術(shù)和地力維護(hù)措施研究>專題、"九五"國家林業(yè)科技攻關(guān)<紙漿材微生物應(yīng)用與施肥技術(shù)研究>專題和由挪威HYDRO公司資助的國際合作項(xiàng)目<中國南方人工林施肥>的研究成果.
作者簡介:吳曉芙(1953-),男,苗族,湖南吉首市,教授,博導(dǎo),博士,從事林木培育、環(huán)境科學(xué)與工程等方面的研究.
作者單位:吳曉芙(中南林學(xué)院,中國湖南,株洲,412006)
胡曰利(中南林學(xué)院,中國湖南,株洲,412006)
參考文獻(xiàn):
[1]盛煒彤.杉木林密度管理研究--杉木建筑材優(yōu)化栽培模式研究[J].世界林業(yè)研究,1996,9(增刊):54-76.
[2]李貽銓. 杉木中齡林施肥效應(yīng)探討[J].林業(yè)科學(xué)研究,
1994,4 (6):390-396.
[3]黃益宗,馮宗偉,黎向東,等.應(yīng)用"416-A"最優(yōu)混合設(shè)計(jì)研究尾葉桉肥效與營養(yǎng)診斷[J].林業(yè)科學(xué),1999,35(6):10-18.
[4]胡曰利,吳曉芙,等.林木施肥理論研究與探討[J].林業(yè)科學(xué)研究,1996,9(Mem.):11-17.
[5]李貽銓,徐清彥,劉仲君.杉木幼林前5年施肥效應(yīng)研究[J].土壤通報(bào),1991,22(1):28-31.
[6]俞元春,游為貴,黃道明.杉木幼林P肥利用效率研究[J].南京林業(yè)大學(xué)學(xué)報(bào),1997,21(1):33-36.
[7]杜化堂,萬勛成,李培學(xué).杉木北帶幼林施肥效應(yīng)研究[J].河南林業(yè)科技,1996,(3):6-12.
[8]肖祥希.磷對(duì)不同家系苗木生長的影響[J].福建林業(yè)科技,1995,22(增):49-53.
[9]陳金林.杉木優(yōu)良家系幼林密度和施肥試驗(yàn)[J].南京林業(yè)大學(xué)學(xué)報(bào),1996,20(2):20-23.
[10]劉宇.植物營養(yǎng)診斷的回顧與展望[J].土壤,1990,22(4):173-176.
[11]李貽銓,林木施肥與營養(yǎng)診斷[J].林業(yè)科學(xué),1991,27(4):435-442.
[12]黃宗玉.診斷施肥綜合法(DRIS)的原理與應(yīng)用問題[J].土壤學(xué)進(jìn)展,1990,18(1):22-26.
[13]陳倫壽,毛達(dá)如,張承東.關(guān)于推薦(配方)施肥中幾個(gè)技術(shù)性問題[J].土壤,1990,22(4):169-177.
[14]陳道東,張瑛,紀(jì)建書,等.杉木幼林葉子養(yǎng)分診斷研究[J].林業(yè)科學(xué)研究,1996,9(Mem.):58-66.
[15]Waring R H.Estimating forest growth and efficiency in relation
to canopy leaf area[J].Advances in Ecological Research,1983
(13):327-354.
[16]姜培坤,俞歡群,徐秋芳.礦質(zhì)肥料對(duì)杉苗根區(qū)土壤生化活性影響[J].浙江林學(xué)院學(xué)報(bào),1996,13(1):10-14.
[17]姜培坤,徐秋芳,錢新標(biāo).礦質(zhì)肥料對(duì)杉苗生理和根際土壤化學(xué)性質(zhì)影響[J].浙江林業(yè)科技,1995,15(5):21-24.
[18]王華芳,樹木礦質(zhì)營養(yǎng)與生長相關(guān)性研究進(jìn)展[J].世界林業(yè)研究,1993,(4):41-47.
[19]張?zhí)鞃?花崗巖立地上杉木幼林施肥效應(yīng)[J].廣西林業(yè)科學(xué),1996,25(3):121-126.
[20]Adrian A,James H F.Productivity, resource use, and competitive
interactions of Fraxinus uhdei in Hawaii uplands[J]. Can. J. For.
Res,2001,31:132-142.
[21]Agen G I. Nitrogen productivity of some conifers[J]. Canadian
Journal of Forest Research,1983, 13(3):494-500.
[22]Ingestad T A Fertilization Model Based on the Concepts of
Nutrient Flux Density and Nutrient[J].Productivity. Scand.J.For
Res,1988, (3):157-173.
[23]Hasenauer H,Nemani R R,Schadauer K,Running S W.Forest growth
response to changing climate between 1961 and 1990 in Austria[J]. Forest
Ecology and Management,1999,122(3):209-219.
[24]Herbert M A, et al.Fertilizer/site interactions on the growth
and foliar nutrient levels of eucalyptus grandis[J]. Forest Ecology and
management,1990, 30:247-257.
[25]張萬儒,盛煒彤,蔣有緒,等.中國森林立地分類系統(tǒng)[J].林業(yè)科學(xué)研究,1992,5(3):251-262.
[26]<用材林基地立地分類、評(píng)價(jià)及適地適樹研究專題>森林立地分類系統(tǒng)研究組.試論建立我國森林立地分類系統(tǒng)[J].林業(yè)科學(xué),1990,26(3):262-270.
[27]駱期邦.Richards函數(shù)擬合多形地位指數(shù)模型研究[J].林業(yè)科學(xué)研究,1989,2(9):534-539.
[28]周天相.杉木林施肥試驗(yàn)效果分析[J].
亞熱帶林業(yè)科技, 1987, (2).
[29]胡曰利,吳立潮,吳曉芙,等.杉木人工林氮磷鉀配方施肥的依據(jù)及應(yīng)用研究[J].
中南林學(xué)院學(xué)報(bào),1993,13(1): 17-24.
[30]胡曰利,吳曉芙,吳立潮,等.加勒比松幼林施肥效應(yīng)研究[J].林業(yè)科學(xué)研究,1996(9):126-132.
[31]Shen G, James A M,Charles R H.The effect of nitrogen
fertilization, rock type, and habitat type on individual tree
mortality[J]. Forest Science,2001, 47 (2):203-213.
[32]Gadgil R L,Sandberg A M,Graham J D.Lupinus arboreus and
inorganic fertiliser as sources of nitrogen for Pinus radiata on a
coastal sand[J]. New Zealand Journal of Forestry
Science,1984,14(3):257-276.
[33]賈慧君,Ingestad T,等.蘭考泡桐和刺槐幼苗最適營養(yǎng)需要的研究[J].林業(yè)科學(xué),1989,25(1),1-5.
[34]李淑儀,林書蓉,廖觀榮,等.桉樹營養(yǎng)狀況與葉片營養(yǎng)診斷研究[J].林業(yè)科學(xué),1996,32(6):481-489.
[35]張建國,李貽銓,紀(jì)建書,等.施肥對(duì)杉木幼林根系生長的影響[J].林業(yè)科學(xué)研究,1996(Mem.):48-57.
[36]Raich J W, Riley R H, Vitousek P M. Use of root-ingrowth cores
to assess nutrient limitations in forest ecosystems[J].
Canadian-Journal-of-Forest-Research,1994, 24 (10):2135-2138
[37]Benson M L, Myers B J,Raison R J. Dynamics of stem growth of
Pinus radiata as affected by water and nitrogen supply[J].
Forest-Ecology-and-Management,1992, 52: 117-137.
[38]Lindner M, Bugmann H, Lasch P,et al. Regional impacts of
climatic change on forests in the state of Brandenburg, Germany[J].
Agricultural and Forest Meteorology,1997, 84: 123-135.
[39]Mohren G M J,Veen J R van de, Van-de-Veen J R,et,al.Forest
growth in relation to site conditions: application of the model FORGRO
to the Solling spruce site[J].Ecological Modeling. 1995, 83:173-183.
[40]Nilsson L O, Willow stand growth model based on nitrogen
productivity[J]. Scandinavian Journal of Forest Research,1987,2
(3):291-299.
[41]Oene H van, Agren G I, Van-Oene H,et al.The application of the
model NAP to the Solling spruce site[J]. Ecological-Modeling, 1995,
83:139-149.
[42]Thornley J H M,Cannell M G R.Temperate forest responses to
carbon dioxide, temperature and nitrogen: a model analysis[J]. Plant,
Cell and Environment,1996, 19 (12):1331-1348.
[43]胡曰利,吳曉芙.林木施肥研究 I
肥效理論與基本模型[J].中南林學(xué)院學(xué)報(bào),1994,14(1):1-6.
[44]吳曉芙,胡曰利. 杉木施肥研究 II
肥效模型在杉木林中的應(yīng)用[J].中南林學(xué)院學(xué)報(bào),
1995,15(1): 1-8.
[45]吳曉芙,胡曰利,吳立潮,等.林木施肥研究林木施肥的有效立地指數(shù)區(qū)間與目標(biāo)肥效[J].中南林學(xué)院學(xué)報(bào),1997,17(1):1-6.
[46]何振立,等.評(píng)價(jià)土壤磷素植物有效性及緩沖的物理化學(xué)指標(biāo)[J].土壤學(xué)報(bào),1991,28(3),301-308.
[47]Wu X,Aasen I. A study of extraction methods for assessing soil
zinc availability: I. Soil zinc extractability and buffering capacity in
relation to soil properties[J].Nor.J Agri Sci,1991.
[48]Wu X,Aasen I. A study of extraction methods for assessing soil
zinc availability: II. Estimation of the relationship between soil zinc
quantity and intensity[J].Nor. J Agri Sci,1992.
[49]胡曰利,吳曉芙.林木生長與養(yǎng)分動(dòng)態(tài)模型研究V杉木林養(yǎng)分曲線[J].中南林學(xué)院學(xué)報(bào),1999,19(4):1-7.
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