杂交马褂木人工林培育技术研究
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摘要
本文通过杂交马褂木林分标准地定位调查,研究杂交马褂木林分的生长规律,探索影响林分生长的气象因子、立地因子和经营措施;同时,通过具体设计实验,研究杂交马褂木苗木培育、造林及抚育的关键技术,从而得出杂交马褂木人工林培育技术体系。主要研究结论如下:
杂交马褂木定植6a时,胸径、树高和材积分别达到14.8cm、9.9m和0.0805m3,生长迅速,各生长量都一直在快速增加,正处于生长旺盛的阶段。
影响杂交马褂木生长的主导气象因子是水分因子,光照因子次之,热量因子的影响程度最小。杂交马褂木林分在平原立地和阴坡立地上最旺盛,生长量随土层厚度、土壤有机质、速效氮和磷的含量增加而增加,随海拔、坡位、坡度和土壤砾石含量增加而降低。
利用枝接方法可以繁育杂交马褂木大规格苗、芽接方法繁殖大量苗,接芽越大、砧木越粗,成活率越高,生长越旺盛。1a生苗木生长呈慢-快-慢的节律,速生期内的各生长量比率均接近60%,1a和2a生苗出圃率为76.0%和82.6%,地膜覆盖能促进杂交马褂木苗木生长,提高出圃率。起苗后假植是保持成活率和当年生长量的有效措施,利用保水剂和泥浆也能在晾晒2-3d内保持高成活率。外源激素能够促进杂交马褂木苗木根系生长潜力和幼林生长。
全面整地促进杂交马褂木林分生长,春季和深秋都可以造林,嫁接苗和大规格苗造林后生长迅速。除草能提高杂交马褂木林分生长,化学除草省时省工,工作效率高。造林当年不需要进行修剪;第二年采用轻度修剪能促进杂交马褂木生长。施肥措施和套种矮灌农作物可以促进杂交马褂木幼林生长。
In this thesis, we studied on the growth law of L.chinense XL.tulipifera plantation, searched for the key meteorological factors, site factors and management measures which effected the growth of forest stand by investigating the sample areas. The same time, we studied on the key technologies of cultivating seedlings, planting and tending by the specific design of experiments. All above, the target is to get technology system of L.chinense XL.tulipifera plantation. The main conclusions are as follows:
After 6 years, the diameter, height and volume of L.chinense XL.tulipifera plantation reached 14.8cm,9.9m and 0.0805m3 respectively, and grow rapidly, so the forest stand is at the stage of vigorous growth.
The dominant weather factor was water factor, which effected growth of L.chinense X L.tulipifera forest stand, light factor followed by the least heat factor. Forest stands on plain and shady slope had the most vigorous growth rate. Growth of forest stand increased with the soil depth, soil organic matter, available nitrogen and phosphorus content increased, while the elevation, slope position, slope and soil gravel content decreased.
Producer can get large-sized grafting plants using stem graft, and breeding a large number of grafting plants by bud grafting. Bud the greater, the stock cruder, the higher survival rate, growth was more vigorous.1-year seedling show obvious slow-fast-slow rhythm, the growth rate of fast-growing period close to 60%.1-year and 2-year seedlings come out nursery rate was 76.0% and 82.6%. Mulching can promote seedling growth of L.chinense XL.tulipifera and improve come out nursery rate. After shifting, seedlings heel was effective measures to maintain the survival and current growth, and the use of SAP or mud can maintain high survival rate in 2-3 days. Exogenous hormone can promote root growth potential of and young forest growth L.chinense XL.tulipifera seedlings.
Comprehensive site preparation can promote stand growth. Seedlings can be planted in both spring and late autumn, and the large-size seedlings and grafting plants grow quickly after planting. Weed control can improve the growth of forest stands, and chemical weed control saving time and working efficiently. Trees did not need be pruned in the first year after planting; light pruning can promote the growth of L.chinense XL.tulipifera in second year. Fertilization and intercropping dwarf shrub crops can promote the growth of young L.chinense XL.tulipifera plantation.
杂交马褂木定植6a时,胸径、树高和材积分别达到14.8cm、9.9m和0.0805m3,生长迅速,各生长量都一直在快速增加,正处于生长旺盛的阶段。
影响杂交马褂木生长的主导气象因子是水分因子,光照因子次之,热量因子的影响程度最小。杂交马褂木林分在平原立地和阴坡立地上最旺盛,生长量随土层厚度、土壤有机质、速效氮和磷的含量增加而增加,随海拔、坡位、坡度和土壤砾石含量增加而降低。
利用枝接方法可以繁育杂交马褂木大规格苗、芽接方法繁殖大量苗,接芽越大、砧木越粗,成活率越高,生长越旺盛。1a生苗木生长呈慢-快-慢的节律,速生期内的各生长量比率均接近60%,1a和2a生苗出圃率为76.0%和82.6%,地膜覆盖能促进杂交马褂木苗木生长,提高出圃率。起苗后假植是保持成活率和当年生长量的有效措施,利用保水剂和泥浆也能在晾晒2-3d内保持高成活率。外源激素能够促进杂交马褂木苗木根系生长潜力和幼林生长。
全面整地促进杂交马褂木林分生长,春季和深秋都可以造林,嫁接苗和大规格苗造林后生长迅速。除草能提高杂交马褂木林分生长,化学除草省时省工,工作效率高。造林当年不需要进行修剪;第二年采用轻度修剪能促进杂交马褂木生长。施肥措施和套种矮灌农作物可以促进杂交马褂木幼林生长。
In this thesis, we studied on the growth law of L.chinense XL.tulipifera plantation, searched for the key meteorological factors, site factors and management measures which effected the growth of forest stand by investigating the sample areas. The same time, we studied on the key technologies of cultivating seedlings, planting and tending by the specific design of experiments. All above, the target is to get technology system of L.chinense XL.tulipifera plantation. The main conclusions are as follows:
After 6 years, the diameter, height and volume of L.chinense XL.tulipifera plantation reached 14.8cm,9.9m and 0.0805m3 respectively, and grow rapidly, so the forest stand is at the stage of vigorous growth.
The dominant weather factor was water factor, which effected growth of L.chinense X L.tulipifera forest stand, light factor followed by the least heat factor. Forest stands on plain and shady slope had the most vigorous growth rate. Growth of forest stand increased with the soil depth, soil organic matter, available nitrogen and phosphorus content increased, while the elevation, slope position, slope and soil gravel content decreased.
Producer can get large-sized grafting plants using stem graft, and breeding a large number of grafting plants by bud grafting. Bud the greater, the stock cruder, the higher survival rate, growth was more vigorous.1-year seedling show obvious slow-fast-slow rhythm, the growth rate of fast-growing period close to 60%.1-year and 2-year seedlings come out nursery rate was 76.0% and 82.6%. Mulching can promote seedling growth of L.chinense XL.tulipifera and improve come out nursery rate. After shifting, seedlings heel was effective measures to maintain the survival and current growth, and the use of SAP or mud can maintain high survival rate in 2-3 days. Exogenous hormone can promote root growth potential of and young forest growth L.chinense XL.tulipifera seedlings.
Comprehensive site preparation can promote stand growth. Seedlings can be planted in both spring and late autumn, and the large-size seedlings and grafting plants grow quickly after planting. Weed control can improve the growth of forest stands, and chemical weed control saving time and working efficiently. Trees did not need be pruned in the first year after planting; light pruning can promote the growth of L.chinense XL.tulipifera in second year. Fertilization and intercropping dwarf shrub crops can promote the growth of young L.chinense XL.tulipifera plantation.
引文
[1]张建龙.中国森林资源概况——第七次全国森林资源清查[M].国家林业局,2009,11:9—10.
[2]雷锡禄.中国速生丰产林建设的发展战略与对策[M].北京:中国林业出版社,1992.
[3]林迎星.国外工业人工林发展研究概述[J].世界林业研究,2000,13(4):25—31.
[4]沈国舫.对发展我国速生丰产林有关问题的思考[J].世界林业研究,1992:67—74.
[5]沈国舫.森林培育学[M].北京:中国林业出版社,2001.
[6]盛炜彤.国外工业人工林培育的目标和技术途径[J].世界林业研究,1992,(4):75—83.
[7]Wolfe J A. Later cretaceous-cenoroic history of deciduouness and the terminal cretaceous event[J]. Paleobiology,1987, B:215-226.
[8]Parks C R, Wendel J F, Sewell M M. et al. Genetic control isozyme in genus'Liriodendron [J]. Journal of Heredity,1990,81(4):317-323.
[9]Parks C R, Wendel J F. Molecular divergence between Asia and North American species of Liriodendron with implications for interpretation of fossil floras[J]. Amer J Bot,1990,77(10):1243-1256.
[10]方炎明.鹅掌楸的地理分布和空间格局[J].南京林业大学报,1994,18(2):13—18.
[11]贺善安,刘友良,郝日明,等.鹅掌楸种群间光生态适应性的分[J].植物生态学报,1999,23(1):40—47.
[12]郭志华,张宏达,李志安,等.鹅掌楸苗期光合特性的研究[J].生态学报,1999,19(2):164—169.
[13]陈辉,阮宏华,胡海波,等.鹅掌楸光合性能的测定与分析[J].南京林业大学学报(自然科学版),2003,27(1):72—75.
[14]季孔庶,王章荣.鹅掌楸属植物研究进展及其繁育策略[J].世界林业研究,2001,14(1):8—15.
[15]顾万春.主要阔叶树种速生丰产技术[M].北京:中国科技出版社,1993.
[16]刘西俊,周丕振.鹅掌楸生理特性及适应性的研究[J].西北植物学报,1989,9(3):183—189.
[17]李建民,封剑文,谢芳,等.鹅掌楸人工林的丰产特性[J].林业科学研究,2000,13(6):622—627.
[18]潘彪,徐朝阳,王章荣.杂交鹅掌楸木材解剖性质及其径向变异规律[J].南京林业大学学报:自然科学版,2005,29(1):79—83.
[19]徐朝阳.杂种鹅掌楸材性研究[D].南京林业大学研究生学位论文,2004,47—48.
[20]汤兆成,潘仙松,郑金福.营造马褂木短伐期菇木林试验初报[J].浙江林业科技,1997,17(5):29—31.
[21]吴运辉,石立昌.鹅掌楸不同造林密度试验初报[J].贵州林业科技,1998,26(2):42—44.
[22]杨志成.马褂木生长习性、分布与造林初探[J].林业科学研究,1988,1(3):334—339.
[23]McCarthy E. F.. Yellow poplar characteristics, growth and management[M]. Washington D.C.:U.S. Dep. Agric, Tech. Bull.356,1933:32-58.
[24]陈孝丑.北美鹅掌楸不同种源在闽北山区的生长表现及评价[J].福建林业科技,2008,35(1):81—84.
[25]张琰,范宏伟.河南大别山引种鹅掌楸生长规律研究[J].中国农学通报,2006,22(4):338—341.
[26]柳新红,吴林森,王军峰,等.不同密度山地速生工业原料林生物量的研究[J].浙江林业科技,2009,29(3):14—18.
[27]石杨文,杨萍,陈波涛,等.黎平县鹅掌楸人工林的生长状况调查[J].贵州林业科技,2005,33(3):20 --23.
[28]黄利斌,施士争,祝良林.杂交马褂木无性系造林试验初报[J].江苏林业科技,2008,35(6):1—4.
[29]颜立红,左海松,殷元良,等.杂交鹅掌楸丘陵区栽培试验研究[J].湖南林业科技,2002,29(4):19,34.
[30]季孔庶,王章荣,温小荣.杂交鹅掌楸生长表现及其木材胶合板性能[J].南京林业大学学报(自然科学版),2005,29(1):71-74.
[31]黄昌春.福建沙县26年生杂种马褂木人工林生物量与生产力研究[J].福建林业科技,2008,35(3):10—13.
[32]杨年友.短轮伐期日本落叶松混交丰产造林技术研究[J].林业实用技术,2007,5:10—11.
[33]胡少瑛,芮义忠,冯必胜.杉木与鹅掌楸混交林效益调查研究[J].安徽林业,2001,6:14.
[34]吴远彬.杉木人工林采伐迹地造林效果调查分析[J].河南科技大学学报(农学版),2004,24(2):30—33.
[35]何贵平,陈益泰,胡炳堂,等.杉木与马褂木、檫树混交林及其纯林生物量和土壤肥力研究[J].林业科学研究,2001,14(5):540—547.
[36]陈际伸.湿地松鹅掌楸混交林营养元素生物循环的研究[J].江西林业科技,2001,2:1—3.
[37]黄勇来.南方枫香混交模式的层次选择[J].亚热带农业研究,2007,3(1):31—33.
[38]黄勇来.枫香与不同树种混交林的生长及生物生产力研究[J].西南林学院学报,2006,26(2):15—18.
[39]王章荣.鹅掌楸属树种杂交育种与利用[M].北京:中国林业出版社,2004.
[40]U.S. Department of Agriculture. Climate and man[M]. Washington D.C.:U.S. Dep. Agric, Yearb. Agric.,1941.
[41]U.S. Department of Agriculture, Forest Service. Yellow—poplar (Liriodendron tulipifera L.) [C]. In Silvics of forest trees of the United States. H. A. Fowells, compiler.U.S. Dep. Agric Agric. Handb., 1965.271:256-265.
[42]Russell T. E.. Planting yellow—poplar:where we stand today[J]. Gen. Tech. Rep.,1977,17:1-8.
[43]周家骏.优良阔叶树种造林技术[M].浙江:科学技术出版社,1985.
[44]余亚平.豫南大别山中国马褂木苗木培育及造林技术[J].农业科技与信息,2007,7:36—37.
[45]刘化桐.马褂木的人工栽培技术[J].林业科技开发,2004,18(6):77.
[46]武慧贞.杂交马褂木引种试验[J].湖北林业科技,1990,(3):16—18.
[47]Donald E.Beck, Lino Della-Bianca.. Yellow-poplar:Characteristics and management[M]. Washington D.C.:U.S. Dep. Agric., Agric. Handb.,583,1981:33-92.
[48]Fitzgerald Charles H., Selden III Charles W.. Herbaceous weed control accelerates growth in a young yellow poplar plantation[J].Journal of Forestry,1975,73:21-22.
[49]刘化桐.闽北山地7种阔叶树种造林对比试验[J].福建林业科技,2004,31(4):62—64.
[50]刘盛芳,曹鹏云,柴艺秀,等.鹅掌楸的栽培技术[J].山东林业科技,2004,2:48.
[51]Limstrom Gustaf A., Finn R. F., Deitschman G. H.. Planting stock grades for yellow—poplar[J]. Journal of Forestry,1955,53:28-32.
[52]Limstrom G. A. Forest planting practice in the Central States[M]. Washington D.C.:U.S. Dep. Agric., Agric. Handb.247,1963:23-69.
[53]McElwee R. L. The silviculture of oaks and associated species[M]. Washington D.C.:U.S. Dep. Agric., For. Serv.Res. Pap.,1970:17-25.
[54]Carvell Kenneth L. Combat herbaceous competition with the use of large yellow—poplar planting stock[J]. W. Va. Univ. Agric.Exp. Stn. Bull.,1966.520:3-4,16.
[55]浙江省质量技术监督局.浙江省地方标准——主要造林树种苗木质量等级(DB33/177—2005),2005.9.
[56]Thor E. Effects of eight nursery treatments on yellow—poplar seedling characteristics and field performance[J]. Tree Planters'Notes,1965,72:16-18.
[57]Sterling Kenneth A., Carl L. Lane.. Growth and development of shoot and root pruned yellow—poplar seedlings on two sites[J]. Tree Planters'Notes,1975,26(3):1-2,25.
[58]Russell T. E., Loftus N. S., Mignery A. L., et al.. Planting yellow—poplar in central Tennessee and northern Alabama[M]. Washington D.C.:U.S. Dep. Agric., For. Serv.Res. Pap.,1970,63:17-24.
[59]Rudolph V. J., Bright J. N., Stevens T. D.. A spacing study of planted yellow-poplar in Michigan[J]. Mich. Agric.Exp. Stn. Q. Bull.,1965,47(4):615-622.
[60]吴运辉,石立昌.鹅掌楸不同造林密度试验初报[J].林业科技开发,1998,6:19—20.
[61]王志明,余梅林,刘智,等.鹅掌楸生长发育特性及配套技术[J].浙江林学院学报,1995,12(2):149—155.
[62]Van de Werken, Hendrik, James G. Warmbrod. Response of shade trees to fertilization[J]. Farm and Home Sci. Prog. Rep.,1969,72:2-4.
[63]A.F. Ike Jr.. Fertilized yellow—poplar seedlings maintain growth advantage after four years[J]. U.S. Dep. Agric. For. Serv.Res. Notes,1962,175:2-7.
[64]Broadfoot W. M., Ike A. F.. Research progress in fertilizing southern hardwoods[C]. In Forest fertilization:theory and practice,1968:180-184.
[65]Finn Raymond F., White Donald P.. Commercial fertilizers increase growth in a yellow poplar plantation[J]. Journal of Forestry,1966,64:809-810.
[66]Mitchell Harold L.. Effect of nitrogen fertilizer on the growth rate and certain wood quality characteristics of saw log size red oak, yellow—poplar, and white ash[C]. In Proc. symp. Effect of growth acceleration on property of wood:J—1—14. Univ. Wis., Madison,1971.
[67]Mitchell Harold L., Chandler Robert F.. The nitrogen nutrition and growth of certain deciduous trees of Northeastern United States[J]. Black Rock For. Bull.,1939,11:90-94.
[68]Buckner, Edward Reap. The influence of fertilization and irrigation treatments on trees in a natural yellow—poplar stand and on planted seedlings of selected species[D]. N.C., N.C.State Univ. Ph.D. thesis.,1972:133.
[69]Farmer R. E. Jr., Snow E. A., Curlin J. W.. Effects of nitrogen and phosphorous fertilization on juvenile growth of planted yellow—poplar on an eroded old field[J]. Soil Sci. Sot. Am. Proc.,1970,34:312- 313.
[70]Hall T. F., Penfound W. T., Hess A. D.. Water level relationships of plants in the Tennessee Valley with particular reference to malaria control[J]. J.Tenn. Acad. Sci.,1946,21 (1):18-59.
[71]Williston H. L.. Inundation damage to upland hardwoods[J]. USDA For. Serv. South. For. Notes,1959, 123:4-11.
[72]McAlpine Robert G. Flooding kills yellow-poplar[J]. For. Farmer,1959,19(3):9,13-14.
[73]Hook Donal D., Brown Claud L.. Root adaptations and relative flood tolerance of five hardwood species[J]. For. Sci.,1973,19:225-229.
[74]McGee, Charles E. The effect of fire on species dominance in young upland hardwood stands[C]. Ark. USA, Mid-South Upland Hardwood Symp.,1980:97-104.
[75]Hepting George H., Hedgcock George G.. Decay in merchantable oak, yellow—poplar, and basswood in the Appalachian region[J]. U.S. Dep. Agric. Tech.Bull.,1937,570:30.
[76]孙辉.鹅掌楸黑斑病的研究[D].南京林业大学研究生硕士学位论文,2003.6,46—47.
[77]李秀芹,张国斌.马褂木繁殖与栽培技术[J].安徽农业科学,2006,34(12):2706—2707.
[78]夏良放,余良富.鹅掌楸、桤木幼抚技术[J].江西林业科技,2000,4:6—8.
[79]方素霞.马褂木丰产栽培[J].中国林业,2009,6B:474.
[80]Beck Donald E.. Growth and yield of yellow—poplar, potential for management[C]. In Impact of inflation on the management and utilization of hardwoods. Third Annu. Hardwood Symp. Hardwood Res. Count. Proc., Cashiers, N.C.,1975:51-59.
[81]季孔庶,王章荣.杂种鹅掌楸的产业化前景与发展策略[J].林业科技开发,2002,16(1):1—4.
[82]国家林业局.2003年中国林业发展报告[M].北京:中国林业出版社,2003.
[83]王世绩.杨树研究进展[M].北京:中国林业出版社,1995.
[84]张守攻,张建国.我国工业人工林培育现状及其在林业建设中的战略意义[J].中国农业科技导报,2000,(2):32-35.
[1]潘彪,徐朝阳,王章荣.杂交鹅掌楸木材解剖性质及其径向变异规律[J].南京林业大学学报(自然科学版),2005,29(1):79—83.
[2]徐朝阳.杂种鹅掌楸材性研究[D].南京林业大学研究生学位论文,2004.
[3]季孔庶,王章荣,温小荣.杂交鹅掌楸生长表现及其木材胶合板性能[J].南京林业大学学报(自然科学版),2005,29(1):71—74.
[4]季孔庶,王章荣.鹅掌楸属植物研究进展及其繁育策略[J].世界林业研究,2001,14(1):8—15.
[5]汤兆成,潘仙松,郑金福.营造马褂木短伐期菇木林试验初报[J].浙江林业科技,1997,17(5):29—31.
[6]吴运辉,石立昌.鹅掌楸不同造林密度试验初报[J].贵州林业科技,1998,26(2):42—44.
[7]杨志成.马褂木生长习性、分布与造林初探[J].林业科学研究,1988,1(3):334—339.
[8]王章荣.鹅掌楸属树种杂交育种与利用[M].北京:中国林业出版社,2004.
[9]刘榕,史元增.甘肃杨树[M].兰州:兰州大学出版社,1995.
[10]孟宪宇.测树学(第二版)[M].北京:中国林业出版社,1996.
[11]沈国舫.森林培育学[M].北京:中国林业出版社,2002.
[12]罗世家,艾训儒,彭诚.黄山松人工林材积生长规律的研究[J].林业科技,2002,27(6):4—6.
[13]秦光华,姜岳忠,马玲,等.欧美杨新无性系苗期年生长模型的研究[J].内蒙古林业科技,2003(2):40—43.
[14]向志民,何敏.几种杨树生长进程动态分析[J].西北林学院学报,1994,9(2):82—86.
[15]秦光华,乔玉玲,孟昭和.美洲黑杨新无性系T26和T66林期年高生长节律的研究[J].江苏林业科技,2002,29(4):6—8.
[1]季孔庶,王章荣,温小荣.杂交鹅掌楸生长表现及其木材胶合板性能[J].南京林业大学学报(自然科学版),2005,29(1):71—74.
[2]成俊卿,杨家驹,刘鹏,等.中国木材志[M].北京:中国林业出版社,1992.
[3]中国林业科学研究院木材工业研究所.中国主要树种的木材物理力学性质[M].北京:中国林业出版社,1982.
[4]徐朝阳.杂种鹅掌楸材性研究[C].南京:南京林业大学研究生学位论文,2004.
[5]李周岐,王章荣.鹅掌楸属杯向杂种苗期生长性状的遗传变异与优良遗传型选择[J].西北林学院报,2001,16(2):5—9.
[6]王章荣.鹅掌楸属杂交育种回顾与展望[J].南京林业大学学报(自然科学版),2003,27(3):76—78.
[7]刘春延.河北塞罕坝华北落叶松人工林生长及生境因子关系研究[C].北京:北京林业大学研究生学位论文,2009.
[8]刘榕,史元增.甘肃杨树[M].兰州:兰州大学出版社,1995.
[9]袁嘉祖.灰色系统理论及其应用[M].北京:科学出版社,1991.
[10]郝日明,贺善安,汤诗杰,等.鹅掌楸在中国的自然分布及其特点[J].植物资源与环境,1995,4(1):1—6.
[11]俞良亮,季孔庶,王章荣.不同种源鹅掌楸一年生播种苗的年生长规律[J].林业科技开发,2008,22(3):23—26.
[1]方炎明.中国鹅掌楸的地理分布与空间格局[J].南京林业大学学报(自然科学版),1994,18(2):13—18.
[2]郝日明,贺善安,汤诗杰,等.鹅掌揪在中国的自然分布及其特点[J].植物资源与环境,1995,4(1):1—6.
[3]季孔庶,王章荣.杂种鹅掌楸的产业化前景与发展策略[J].林业科技开发,2002,16(1):3—6.
[4]季孔庶,王章荣,温小荣.杂交鹅掌楸生长表现及其木材胶合板性能[J].南京林业大学学报(自然科学版),2005,29(1):71-74.
[5]罗兆安.杂交鹅掌楸与杉木实生苗造林对比试验[J].安徽林业,2004,5:18.
[6]颜立红,左海松,殷元良,等.杂交鹅掌楸丘陵区栽培试验研究[J].湖南林业科技,2002,29(4):19,34.
[7]武慧贞.杂交鹅掌楸引种试验[J].湖北林业科技,1990,(3):16—18.
[8]黄昌春.福建沙县26年生杂种马褂木人工林生物量与生产力研究[J].福建林业科技,2008,35(3):10-13.
[9]黄韬,钟秋平,彭小燕.鹅掌楸人工林生物量及生产力的研究[J].江西林业科技,2000,5:4—9.
[10]王志明,余梅林,刘智,等.鹅掌楸生长发育特性及配套技术[J].浙江林学院学报,1995,12(2):149—155.
[11]高惠璇.应用多元统计分析[M].北京:北京大学出版社,2005.
[12]张文彤,董伟.SPSS统计分析高级教程[M].北京:高等教育出版社,2004.
[13]Korner C. Alpine Plant Life:Functional Plant Ecology of High Mountain Ecosystems[M]. New York: Springer Berlin Heidelberg,2003.
[14]Tranquillini W. Physiological Ecology of the Alpine Timberline:Tree Existence at High Altitude with Special Reference to the European Alps, Ecological Studies[M]. New York:Springer Berlin Heidelberg, 1979.
[15]Barry R G. Mountain Weather and Climate[M]. Melbourne:Law Book Co of Australasia,1981.
[16]曹铁如,陆承松,杨一团,等.高海拔山地营造鹅掌楸林的研究初报[J].湖南林业科技,1989,3:10—13.
[17]李凯荣,王佑民.黄土塬区剌槐林地水分条件与生产力研究[J].水土保持通报,1990,(6):58—65.
[18]王礼先,朱金兆.水土保持学[M].北京:中国林业出版社,2005.
[19]Donald E. Beck, Lino Della-Bianca. Yellow-Poplar:Characteristics and Management[M]. Washington: Agriculture Handbook No.583 of U.S. Department of Agriculture Forest Service,1981.
[20]焦醒,刘广全.黄土高原刺槐生长状况及其影响因子[J].国际沙棘研究与开发,2009,6(2):42—48.
[21]东北林学院.土壤学[M].北京:中国林业出版社,1982.
[22]Chapman A. G.. Some effects of varying amounts of nitrogen on the growth of tulip poplar seedlings[J]. Ohio J. Sci.,1933,33:164-181.
[23]李根前,王波,聂新军.西南桦人工幼林生长与立地条件的关系[J].西南林学院学报,2001,21(2):129—132.
[24]Auten John T.. Successful forest planting requires better site appraisals[J]. J. For.,1935,33:861-864.
[25]Auten John T.. Site requirements of yellow-poplar[M]. Columbus:USDA For.Serv., Cent. States For. Exp. Stn., Stn.Note 32,1937.
[26]林代斌,苏含英,马文吉,等.影响水曲柳人工林生长的主导立地因子[J].东北林业大学学报,1999,27(1):20—23.
[1]Wolfe J A. Later cretaceous-cenoroic history of deciduouness and the terminal cretaceous event[J]. Paleobiology,1987, B:215-226.
[2]Parks C R. Wendel J F, Sewell M M, et al. Genetic control isozyme in genus Liriodendron [J]. Journal of Heredity,1990,81(4):317-323.
[3]Parks C R, Wendel J F. Molecular divergence between Asia and North American species of Liriodendron with implications for interpretation of fossil floras[J]. Amer J Bot,1990,77(10):1243-1256.
[4]潘彪,徐朝阳,王章荣.杂交鹅掌楸木材解剖性质及其径向变异规律[J].南京林业大学学报(自然科学版),2005,29(1):79—83.
[5]徐朝阳.杂种鹅掌楸材性研究[D].南京:南京林业大学研究生学位论文,2004.
[6]季孔庶,王章荣,温小荣.杂交鹅掌楸生长表现及其木材胶合板性能[J].南京林业大学学报(自然科学版),2005,29(1):71-74.
[7]季孔庶,王章荣.鹅掌楸属植物研究进展及其繁育策略[J].世界林业研究,2001,14(1):8—15.
[8]汤兆成,潘仙松,郑金福.营造马褂木短伐期菇木林试验初报[J].浙江林业科技,1997,17(5):29—31.
[9]吴运辉,石立昌.鹅掌楸不同造林密度试验初报[J].贵州林业科技,1998,26(2):42—44.
[10]杨志成.马褂木生长习性、分布与造林初探[J].林业科学研究,1988,1(3):334—339.
[11]季孔庶,王章荣.杂种鹅掌楸的产业化前景与发展策略[J].林业科技开发,2002,16(1):3—6.
[12]周志春,李建民,陈炳星,等.几种亚热带速生乡土阔叶树种的制浆特性评价[J].中国造纸,2003,22(2):8—12.
[13]颜立红,左海松,殷元良,等.杂交鹅掌楸丘陵区栽培试验研究[J].湖南林业科技,2002,29(4):19,34.
[14]黄利斌,施士争,祝良林.杂交马褂木无性系造林试验初报[J].江苏林业科技,2008,35(6):1—4.
[1]潘彪,徐朝阳,王章荣.杂交鹅掌楸木材解剖性质及其径向变异规律[J].南京林业大学学报(自然科学版),2005,29(1):79—83.
[2]徐朝阳.杂种鹅掌楸材性研究[D].南京林业大学研究生学位论文,2004.
[3]季孔庶,王章荣,温小荣.杂交鹅掌楸生长表现及其木材胶合板性能[J].南京林业大学学报(自然科学版),2005,29(1):71—74.
[4]季孔庶,王章荣.鹅掌楸属植物研究进展及其繁育策略[J].世界林业研究,2001,14(1):8—15.
[5]汤兆成,潘仙松,郑金福.营造马褂木短伐期菇木林试验初报[J].浙江林业科技,1997,17(5):29—31.
[6]吴运辉,石立昌.鹅掌楸不同造林密度试验初报[J].贵州林业科技,1998,26(2):42—44.
[7]杨志成.马褂木生长习性、分布与造林初探[J].林业科学研究,1988,1(3):334—339.
[8]王章荣.鹅掌楸属树种杂交育种与利用[M].北京:中国林业出版社,2004.
[9]龙应忠,董方平,吴际友,等.湿地松、火炬松造林密度与整地措施研究[J].林业科技通讯,1996,(12):12.
[10]李火根,施季森.杂交鹅掌楸良种选育与种苗繁育[J].林业科技开发,2009,23(3):1—5.
[11]刘辉强.林木施肥研究综述[J].安徽农学通报,2010,16(10):139—141.
[12]王萧洁,邓新文,陈国斌.树木整形修剪的原因和季节[J].黑龙江林业,2002,(10):31—32.
[13]Beck Donald E., Lino Della-Bianca. Yellow-poplar:Characteristics and management[D]. Washington: U.S. Dep.Agric., Agric. Handb.583,1981.
[14]李建民,封剑文,谢芳,等.鹅掌楸人工林的丰产特性[J].林业科学研究,2000,13(6):622—627.
[15]刘化桐.闽北山地7种阔叶树种造林对比试验[J].福建林业科技,2004,31(4):62—64.
[16]刘盛芳,曹鹏云,柴艺秀,等.鹅掌楸的栽培技术[J].山东林业科技,2004,2:48.
[17]胡伯智,厉荣良,冯建国.杉木优良家系实生苗与扦插苗造林效果比较[J].南京林业大学学报(自然科学版),1999,23(4):74—75.
[18]姜远标,章岳涛,邓桂香,等.思茅松扦插苗与实生苗造林效果比较研究[J].林业资源管理,2006,(5):34—39.
[19]覃冀,罗敏,刘晚传,等.高脂马尾松扦插苗与实生苗造林早期生长比较[J].广东林业科技,2010,(3):62—64.
[20]Limstrom Gustaf A., R. F. Finn, G. H. Deitschman. Planting stock grades for yellow—poplar[J]. J. For., 1955,53:28-32.
[21]浙江省质量技术监督局.浙江省地方标准——主要造林树种苗木质量等级(DB33/177—2005)[s].杭州,2005.
[22]Van de Werken, Hendrik, James G. Warmbrod. esponse of shade trees to fertilization[J]. RFarm and Home Sci. Prog. Rep.,1969,72:2-4.
[23]Finn, Raymond F., Donald P. White. Commercial fertilizers increase growth in a yellow poplar plantation[J]. J. For.,1966,64:809-810.
[24]陈瑞炎.不同修剪强度对樟树生长的影响[J].福建林学院学报,2010,30(2):154—156.
[25]刘春利,袁德水,郭万军,等.华北落叶松不同修剪方式对新生枝条生长及雌花量影响[J].河北林果研究,2008,23(4):380—382.
[26]刘化桐.马褂木的人工栽培技术[J].林业科技开发,2004,18(6):77.
[1]洑香香.杂种马褂木繁殖方法的比较[J].江苏林业科技,1999,26(3):46—47.
[2]郭继善.关于杂利,马褂木的扦插繁殖[J].林业科技开发,1995(2):2—3.
[3]陈金慧,施季森.鹅掌楸组培苗的生根及移栽技术[J].林业科技开发,2002,16(5):21—22.
[4]张艳芳.樱花切接苗的接后管理和成型培育[J].湖北花卉园艺,2004,(9):14—15.
[5]沈国舫.森林培育学[M].北京:中国林业出版社,2002.
[6]罗世家,艾训儒,彭诚.黄山松人工林材积生长规律的研究[J].林业科技,2002,27(6):4—6.
[7]陈志生,白忠义,吴立群.系统抽样在苗木调查中的应用[J].防护林科技,2000,4:58—60.
[8]季孔庶.杂交鹅掌楸的无性繁殖[J].南京林业大学学报(自然科学版),2005,29(1):83—87.
[9]王齐瑞,赵金锁,杨海青.杂种鹅掌楸嫁接繁育技术初探[J].浙江林业科技,2005,25(1):46—49.
[10]袁金伟,孙笃玲.杂交马褂木嫁接技术[J].林业科技开发,2004,18(3):66—67.
[11]涂忠虞,黄敏仁.阔叶树遗传改良[M].北京:科技文献出版社,1991.
[12]秦光华,姜岳忠,马玲,等.欧美杨新无性系苗期年生长模型的研究[J].内蒙古林业科技,2003(2):40—43.
[13]秦光华,乔玉玲,孟昭和.美洲黑杨新无性系T26和T66林期年高生长节律的研究[J].江苏林业科技,2002,29(4):6—8.
[14]刘勇.苗木质量调控理论与技术[M].北京:中国林业出版社,1999.
[15]主要造林树种苗木质量分级GB 6000-1999[J].国家质量技术监督局,1999.
[16]高玉艳,杨玉贵,杜群生.银中杨地膜覆盖扦插育苗技术[J].林业科技,2001,26(3):67.
[17]于存忠.南抗杨地膜覆盖扦插育苗的效果分析[J].安徽林业科技,2005,3:17.
[18]D. Scott Green, Eric L. Kruger, Glen R. Stanosz. Effects of polyethylene mulch in a short-rotation, poplar plantation vary with weed-control strategies site quality and clone[J]. Forest Ecology and Management,2003,173:251-160.
[1]周蕴薇,王有传,杨逢建,等.兴安落叶松、樟子松苗木活力与水势关系[J].吉林林业科技,2002,31(3):13—17.
[2]张森,庄丽文,栾士波.苗木水分状况对其成活及生长的影响[J].林业科技,1996,21(1):11—14.
[3]邢世岩.银杏苗木水分研究[J].浙江林业科技,1996,16(1):20—25.
[4]Kramer P J, Kozlowski T T. Physiology of Wood Plants[M]. New York:Academic Press,1979.
[5]喻方圆,郭新保,徐锡增,等.杉木起苗后不同处理方法对根生长势的影响[J].林业科学研究,2002,13(5):539—542.
[6]王迎丽.失水对苗木生理指标的影响[J].林业科技通讯,1993(3):29—32.
[7]沈国舫.森林培育学[M].北京:中国林业出版社,2001.
[8]邹琦.植物生理学实验指导[M].北京:中国林业出版社,2000.
[9]Fife D D, Kreh R E. Seedling root growth potential as a indicator of loblolly pine field performance[J]. For. Sci.1985,31(4):1005-1011.
[10]罗琏.油松苗木生根促进试剂的研究[D].中国林业科学研究院硕士学位论文,2008.
[11]Aldhous J. R.. Nursery practice[D]. London:For. Comm. Bull.43,1972.
[12]Mckay H.M., White I.M.S.. Fine root electrolyte leakage and moisture content:indices of Sitka spruce and Douglas fir seedling performance after desiccation[J]. New Forests,1997,13:139-162.
[13]Tabbush P.M.. Dougter status and forest performance of bare rooted Sitka Spruce and Douglas fir transplants[J]. Forestry,1953,60(1):31-43.
[14]Feret P.P., Kreh R.E., Mulligan C.. Effects of air drying on survival, height and rootgrowth potential of loblolly pine seedlings[J]. Southern J.Appl. For.,1985,9:125-128.
[15]Insley H.. Buckley G.P.. The influence of desiccation and root pruning on the survival and growth of broadleaved seedlings[J]J. Hort. Sci.,1985,60:377-387.
[16]马阿滨,张亚伟.苗木失水对生活力的影响[J].林业科技,1995,20(5):12—15.
[17]李淑铃,侯建治.毛白杨失水对造林效果的影响[J].河南农业大学学报,1993,27(1):46—51.
[18]张春华,李昆,崔永忠,等.川楝苗木失水处理对其活力及造林效果的影响[J].林业科学研究,2006,19(1):70—74.
[19]胡松竹,张露,杜天真,等.晾晒对毛红椿苗木活力的影响[J].江西农业大学学报,2004,26(5):666--669.
[20]李淑玲,侯建治,李荣幸,等.毛白杨苗木失水对造林效果的影响[J].河南农业大学学报,1993,27(1):46—51.
[21]毕会涛,李继东,王哲,等.不同晾晒处理对枣苗水分及成活率的影响[J].中国农学通报,2007,23(2):117—120.
[22]朴英才,胡春平,杨宝茂,等.应用吲哚丁酸处理樟子松苗木的造林试验[J].农药,1987,2:64 —65.
[23]张金荣,张斌珍,樊富花.GGR6号植物生长调节剂对华北落叶松造林的影响及作用机理[J].山西林业科技,2004,2:37—39.
[24]朱明会.植物生长调节剂对华北落叶松造林的影响及生理生化效应[J].山西农业大学学报,2002,3:212—215.
[25]李良厚,贾志英,装海潮.植物激素在干瘠立地侧柏造林中的应用[J].林业科技开发,1995,2:3—4.
[26]侯晶东,宋丽华,曹兵.外源药剂处理对柠条苗木晾晒失水与栽植成活的影响[J].中国农学通报,2010,26(12):86—89.
[27]Zaerr J B. Auxin and the root—regenerating potential in Ponderosa pine seedlings[J]. For. Sci.1967, (13):258-264.
[1]沈国舫.森林培育学[M].北京:中国林业出版社,2001.
[2]McCarthy E. F.. Yellow poplar characteristics, growth and management[J]. U.S. Dep. Agric. Tech. Bull., 1933,356:58.
[3]Russell T. E.. Planting yellow—poplar:where we stand today[J]. USDA For. Serv. Gen. Tech. Rep., 1977, SO—17:8.
[4]李秀芹,张国斌.马褂木繁殖与栽培技术[J].安徽农业科学,2006,34(12):2706—2707.
[5]侯维政,杨成超,彭儒胜.杨树造林间作化学除草试验[J].林业实用技术,2006,5:28—29.
[6]雷鸣宇.板栗整形修剪效应试验[J].经济林研究,1992,10(2):77—78.
[7]王萧洁,邓新文,陈国斌.树木整形修剪的原因和季节[J].黑龙江林业,2002,(10):31—32.
[8]王吉金,张晓平,董莺.不同整地及造林季节造林试验[J].农业科技与信息,2009,20:29.
[9]Belanger R. P., Joseph R. S.. Intensive culture of hardwoods in the South Iowa State[J]. J. Res.,1975, 49:339-344.
[10]Kellison R. C. Hardwood management philosophies and practices In Proc.Symp. on Southeastern Hardwoods[C]. U.S. Dep. Agric. For Serv. Southeast Area, State and Private For.,1971:8-16.
[11】Nugent J.. Artificial regeneration research In Proc. Symp. On Southeastern Hardwoods[C]. U.S. Dep. Agric. For. Serv.Southeast. Area, State and Private For.,1971:50-55.
[12]夏良放,余良富.鹅掌楸、桤木幼抚育技术[J].江西林业科技,2000,4:6—8.
[13]方素霞.马褂木丰产栽培[J].中国林业,2009,6B:474.
[14]余亚平.豫南大别山中国马褂木苗木培育及造林技术[J].农业科技与信息,2007,7:36—37.
[15]刘化桐.马褂木的人工栽培技术[J].林业科技开发,2004,18(6):77.
[16]中华人民共和国国土资源部.2001年中国国土资源公报[N].人民日报,2002年04月22日.
[17]中华人民共和国国家统计局.2010年第六次全国人口普查主要数据公报(第1号)[R].2011年4月28日.
[18]张斌,张桃林.低丘红壤区农林间作系统的水分生态特征及生产力[J].生态学杂志,1997,16(4):1—5.
[1]Wolfe J A. Later cretaceous-cenoroic history of deciduouness and the terminal cretaceous event[J]. Paleobiology,1987,8:215-226.
[2]Parks C R,Wendel J F, Sewell M M, et al. Genetic control isozyme in genus Liriodendron [J]. Journal of Heredity,1990,81(4):317-323.
[3]Parks C R, Wendel J F. Molecular divergence between Asia and North American species of Liriodendron with implications for interpretation of fossil floras[J]. Amer J Bot,1990,77(10):1243-1256.
[4]潘彪,徐朝阳,王章荣.杂交鹅掌楸木材解剖性质及其径向变异规律[J].南京林业大学学报(自然科学版),2005,29(1):79—83.
[5]徐朝阳.杂种鹅掌楸材性研究[D].南京林业大学研究生学位论文,2004.
[6]季孔庶,王章荣,温小荣.杂交鹅掌楸生长表现及其木材胶合板性能[J].南京林业大学学报(自然科学版),2005,29(1):71—74.
[7]季孔庶,王章荣.鹅掌楸属植物研究进展及其繁育策略[J].世界林业研究,2001,14(1):8—15.
[8]汤兆成,潘仙松,郑金福.营造马褂木短伐期菇木林试验初报[J].浙江林业科技,1997,17(5):29—31.
[9]吴运辉,石立昌.鹅掌楸不同造林密度试验初报[J].贵州林业科技,1998,26(2):42—44.
[10]杨志成.马褂木生长习性、分布与造林初探[J].林业科学研究,1988,1(3):334—339.
[11]王章荣.鹅掌楸属树种杂交育种与利用[M].北京:中国林业出版社,2004.
[12]洪伟,吴承祯.试验设计与分析——原理·操作·分析[M].北京:中国林业出版社,2004.
[13]茆诗松,周纪芗,陈颖.试验设计[M].北京:中国统计出版社,2004.
[14]刘红波,陆刚,边宽江.几种实验设计方法的比较[J].安徽农业科学,2007,35(36):11738—11739.
[15]田奇卓,乔新华,陈茂学,等.小麦产量与氮、磷、密度三因素数学模型的优化解析[J].山东农业大学学报,1997,28(3):281—288.
[16]陈晓红,邹志荣,李军,等.温室黄瓜配方施肥N,P,K模型构建[J].西北农林科技大学学报(自然科学版),2003,31(6):85—89.
[17]谢贤健,张健,兰代萍.配比施肥对5年生巨桉人工林生长的影响[J].生物数学学报,2010,25(1):61—70.
[18]中华人民共和国城乡建设环境保护部.城市园林苗圃育苗技术规程(CJ14-86)[S].北京,1986.
[19]Van de Werken, Hendrik, James G. Warmbrod. Response of shade trees to fertilization[J]. Farm and Home Sci. Prog. Rep.,1969,72:2-4.
[20]Broadfoot W. M., A. F. Ike. Research progress in fertilizing southern hardwoods[J]. In Forest fertilization:theory and practice,1968:180-184.
[21]Finn, Raymond F., Donald P. White. Commercial fertilizers increase growth in a yellow poplar plantation[J]. J. For.,1966,64:809-810.
[2]雷锡禄.中国速生丰产林建设的发展战略与对策[M].北京:中国林业出版社,1992.
[3]林迎星.国外工业人工林发展研究概述[J].世界林业研究,2000,13(4):25—31.
[4]沈国舫.对发展我国速生丰产林有关问题的思考[J].世界林业研究,1992:67—74.
[5]沈国舫.森林培育学[M].北京:中国林业出版社,2001.
[6]盛炜彤.国外工业人工林培育的目标和技术途径[J].世界林业研究,1992,(4):75—83.
[7]Wolfe J A. Later cretaceous-cenoroic history of deciduouness and the terminal cretaceous event[J]. Paleobiology,1987, B:215-226.
[8]Parks C R, Wendel J F, Sewell M M. et al. Genetic control isozyme in genus'Liriodendron [J]. Journal of Heredity,1990,81(4):317-323.
[9]Parks C R, Wendel J F. Molecular divergence between Asia and North American species of Liriodendron with implications for interpretation of fossil floras[J]. Amer J Bot,1990,77(10):1243-1256.
[10]方炎明.鹅掌楸的地理分布和空间格局[J].南京林业大学报,1994,18(2):13—18.
[11]贺善安,刘友良,郝日明,等.鹅掌楸种群间光生态适应性的分[J].植物生态学报,1999,23(1):40—47.
[12]郭志华,张宏达,李志安,等.鹅掌楸苗期光合特性的研究[J].生态学报,1999,19(2):164—169.
[13]陈辉,阮宏华,胡海波,等.鹅掌楸光合性能的测定与分析[J].南京林业大学学报(自然科学版),2003,27(1):72—75.
[14]季孔庶,王章荣.鹅掌楸属植物研究进展及其繁育策略[J].世界林业研究,2001,14(1):8—15.
[15]顾万春.主要阔叶树种速生丰产技术[M].北京:中国科技出版社,1993.
[16]刘西俊,周丕振.鹅掌楸生理特性及适应性的研究[J].西北植物学报,1989,9(3):183—189.
[17]李建民,封剑文,谢芳,等.鹅掌楸人工林的丰产特性[J].林业科学研究,2000,13(6):622—627.
[18]潘彪,徐朝阳,王章荣.杂交鹅掌楸木材解剖性质及其径向变异规律[J].南京林业大学学报:自然科学版,2005,29(1):79—83.
[19]徐朝阳.杂种鹅掌楸材性研究[D].南京林业大学研究生学位论文,2004,47—48.
[20]汤兆成,潘仙松,郑金福.营造马褂木短伐期菇木林试验初报[J].浙江林业科技,1997,17(5):29—31.
[21]吴运辉,石立昌.鹅掌楸不同造林密度试验初报[J].贵州林业科技,1998,26(2):42—44.
[22]杨志成.马褂木生长习性、分布与造林初探[J].林业科学研究,1988,1(3):334—339.
[23]McCarthy E. F.. Yellow poplar characteristics, growth and management[M]. Washington D.C.:U.S. Dep. Agric, Tech. Bull.356,1933:32-58.
[24]陈孝丑.北美鹅掌楸不同种源在闽北山区的生长表现及评价[J].福建林业科技,2008,35(1):81—84.
[25]张琰,范宏伟.河南大别山引种鹅掌楸生长规律研究[J].中国农学通报,2006,22(4):338—341.
[26]柳新红,吴林森,王军峰,等.不同密度山地速生工业原料林生物量的研究[J].浙江林业科技,2009,29(3):14—18.
[27]石杨文,杨萍,陈波涛,等.黎平县鹅掌楸人工林的生长状况调查[J].贵州林业科技,2005,33(3):20 --23.
[28]黄利斌,施士争,祝良林.杂交马褂木无性系造林试验初报[J].江苏林业科技,2008,35(6):1—4.
[29]颜立红,左海松,殷元良,等.杂交鹅掌楸丘陵区栽培试验研究[J].湖南林业科技,2002,29(4):19,34.
[30]季孔庶,王章荣,温小荣.杂交鹅掌楸生长表现及其木材胶合板性能[J].南京林业大学学报(自然科学版),2005,29(1):71-74.
[31]黄昌春.福建沙县26年生杂种马褂木人工林生物量与生产力研究[J].福建林业科技,2008,35(3):10—13.
[32]杨年友.短轮伐期日本落叶松混交丰产造林技术研究[J].林业实用技术,2007,5:10—11.
[33]胡少瑛,芮义忠,冯必胜.杉木与鹅掌楸混交林效益调查研究[J].安徽林业,2001,6:14.
[34]吴远彬.杉木人工林采伐迹地造林效果调查分析[J].河南科技大学学报(农学版),2004,24(2):30—33.
[35]何贵平,陈益泰,胡炳堂,等.杉木与马褂木、檫树混交林及其纯林生物量和土壤肥力研究[J].林业科学研究,2001,14(5):540—547.
[36]陈际伸.湿地松鹅掌楸混交林营养元素生物循环的研究[J].江西林业科技,2001,2:1—3.
[37]黄勇来.南方枫香混交模式的层次选择[J].亚热带农业研究,2007,3(1):31—33.
[38]黄勇来.枫香与不同树种混交林的生长及生物生产力研究[J].西南林学院学报,2006,26(2):15—18.
[39]王章荣.鹅掌楸属树种杂交育种与利用[M].北京:中国林业出版社,2004.
[40]U.S. Department of Agriculture. Climate and man[M]. Washington D.C.:U.S. Dep. Agric, Yearb. Agric.,1941.
[41]U.S. Department of Agriculture, Forest Service. Yellow—poplar (Liriodendron tulipifera L.) [C]. In Silvics of forest trees of the United States. H. A. Fowells, compiler.U.S. Dep. Agric Agric. Handb., 1965.271:256-265.
[42]Russell T. E.. Planting yellow—poplar:where we stand today[J]. Gen. Tech. Rep.,1977,17:1-8.
[43]周家骏.优良阔叶树种造林技术[M].浙江:科学技术出版社,1985.
[44]余亚平.豫南大别山中国马褂木苗木培育及造林技术[J].农业科技与信息,2007,7:36—37.
[45]刘化桐.马褂木的人工栽培技术[J].林业科技开发,2004,18(6):77.
[46]武慧贞.杂交马褂木引种试验[J].湖北林业科技,1990,(3):16—18.
[47]Donald E.Beck, Lino Della-Bianca.. Yellow-poplar:Characteristics and management[M]. Washington D.C.:U.S. Dep. Agric., Agric. Handb.,583,1981:33-92.
[48]Fitzgerald Charles H., Selden III Charles W.. Herbaceous weed control accelerates growth in a young yellow poplar plantation[J].Journal of Forestry,1975,73:21-22.
[49]刘化桐.闽北山地7种阔叶树种造林对比试验[J].福建林业科技,2004,31(4):62—64.
[50]刘盛芳,曹鹏云,柴艺秀,等.鹅掌楸的栽培技术[J].山东林业科技,2004,2:48.
[51]Limstrom Gustaf A., Finn R. F., Deitschman G. H.. Planting stock grades for yellow—poplar[J]. Journal of Forestry,1955,53:28-32.
[52]Limstrom G. A. Forest planting practice in the Central States[M]. Washington D.C.:U.S. Dep. Agric., Agric. Handb.247,1963:23-69.
[53]McElwee R. L. The silviculture of oaks and associated species[M]. Washington D.C.:U.S. Dep. Agric., For. Serv.Res. Pap.,1970:17-25.
[54]Carvell Kenneth L. Combat herbaceous competition with the use of large yellow—poplar planting stock[J]. W. Va. Univ. Agric.Exp. Stn. Bull.,1966.520:3-4,16.
[55]浙江省质量技术监督局.浙江省地方标准——主要造林树种苗木质量等级(DB33/177—2005),2005.9.
[56]Thor E. Effects of eight nursery treatments on yellow—poplar seedling characteristics and field performance[J]. Tree Planters'Notes,1965,72:16-18.
[57]Sterling Kenneth A., Carl L. Lane.. Growth and development of shoot and root pruned yellow—poplar seedlings on two sites[J]. Tree Planters'Notes,1975,26(3):1-2,25.
[58]Russell T. E., Loftus N. S., Mignery A. L., et al.. Planting yellow—poplar in central Tennessee and northern Alabama[M]. Washington D.C.:U.S. Dep. Agric., For. Serv.Res. Pap.,1970,63:17-24.
[59]Rudolph V. J., Bright J. N., Stevens T. D.. A spacing study of planted yellow-poplar in Michigan[J]. Mich. Agric.Exp. Stn. Q. Bull.,1965,47(4):615-622.
[60]吴运辉,石立昌.鹅掌楸不同造林密度试验初报[J].林业科技开发,1998,6:19—20.
[61]王志明,余梅林,刘智,等.鹅掌楸生长发育特性及配套技术[J].浙江林学院学报,1995,12(2):149—155.
[62]Van de Werken, Hendrik, James G. Warmbrod. Response of shade trees to fertilization[J]. Farm and Home Sci. Prog. Rep.,1969,72:2-4.
[63]A.F. Ike Jr.. Fertilized yellow—poplar seedlings maintain growth advantage after four years[J]. U.S. Dep. Agric. For. Serv.Res. Notes,1962,175:2-7.
[64]Broadfoot W. M., Ike A. F.. Research progress in fertilizing southern hardwoods[C]. In Forest fertilization:theory and practice,1968:180-184.
[65]Finn Raymond F., White Donald P.. Commercial fertilizers increase growth in a yellow poplar plantation[J]. Journal of Forestry,1966,64:809-810.
[66]Mitchell Harold L.. Effect of nitrogen fertilizer on the growth rate and certain wood quality characteristics of saw log size red oak, yellow—poplar, and white ash[C]. In Proc. symp. Effect of growth acceleration on property of wood:J—1—14. Univ. Wis., Madison,1971.
[67]Mitchell Harold L., Chandler Robert F.. The nitrogen nutrition and growth of certain deciduous trees of Northeastern United States[J]. Black Rock For. Bull.,1939,11:90-94.
[68]Buckner, Edward Reap. The influence of fertilization and irrigation treatments on trees in a natural yellow—poplar stand and on planted seedlings of selected species[D]. N.C., N.C.State Univ. Ph.D. thesis.,1972:133.
[69]Farmer R. E. Jr., Snow E. A., Curlin J. W.. Effects of nitrogen and phosphorous fertilization on juvenile growth of planted yellow—poplar on an eroded old field[J]. Soil Sci. Sot. Am. Proc.,1970,34:312- 313.
[70]Hall T. F., Penfound W. T., Hess A. D.. Water level relationships of plants in the Tennessee Valley with particular reference to malaria control[J]. J.Tenn. Acad. Sci.,1946,21 (1):18-59.
[71]Williston H. L.. Inundation damage to upland hardwoods[J]. USDA For. Serv. South. For. Notes,1959, 123:4-11.
[72]McAlpine Robert G. Flooding kills yellow-poplar[J]. For. Farmer,1959,19(3):9,13-14.
[73]Hook Donal D., Brown Claud L.. Root adaptations and relative flood tolerance of five hardwood species[J]. For. Sci.,1973,19:225-229.
[74]McGee, Charles E. The effect of fire on species dominance in young upland hardwood stands[C]. Ark. USA, Mid-South Upland Hardwood Symp.,1980:97-104.
[75]Hepting George H., Hedgcock George G.. Decay in merchantable oak, yellow—poplar, and basswood in the Appalachian region[J]. U.S. Dep. Agric. Tech.Bull.,1937,570:30.
[76]孙辉.鹅掌楸黑斑病的研究[D].南京林业大学研究生硕士学位论文,2003.6,46—47.
[77]李秀芹,张国斌.马褂木繁殖与栽培技术[J].安徽农业科学,2006,34(12):2706—2707.
[78]夏良放,余良富.鹅掌楸、桤木幼抚技术[J].江西林业科技,2000,4:6—8.
[79]方素霞.马褂木丰产栽培[J].中国林业,2009,6B:474.
[80]Beck Donald E.. Growth and yield of yellow—poplar, potential for management[C]. In Impact of inflation on the management and utilization of hardwoods. Third Annu. Hardwood Symp. Hardwood Res. Count. Proc., Cashiers, N.C.,1975:51-59.
[81]季孔庶,王章荣.杂种鹅掌楸的产业化前景与发展策略[J].林业科技开发,2002,16(1):1—4.
[82]国家林业局.2003年中国林业发展报告[M].北京:中国林业出版社,2003.
[83]王世绩.杨树研究进展[M].北京:中国林业出版社,1995.
[84]张守攻,张建国.我国工业人工林培育现状及其在林业建设中的战略意义[J].中国农业科技导报,2000,(2):32-35.
[1]潘彪,徐朝阳,王章荣.杂交鹅掌楸木材解剖性质及其径向变异规律[J].南京林业大学学报(自然科学版),2005,29(1):79—83.
[2]徐朝阳.杂种鹅掌楸材性研究[D].南京林业大学研究生学位论文,2004.
[3]季孔庶,王章荣,温小荣.杂交鹅掌楸生长表现及其木材胶合板性能[J].南京林业大学学报(自然科学版),2005,29(1):71—74.
[4]季孔庶,王章荣.鹅掌楸属植物研究进展及其繁育策略[J].世界林业研究,2001,14(1):8—15.
[5]汤兆成,潘仙松,郑金福.营造马褂木短伐期菇木林试验初报[J].浙江林业科技,1997,17(5):29—31.
[6]吴运辉,石立昌.鹅掌楸不同造林密度试验初报[J].贵州林业科技,1998,26(2):42—44.
[7]杨志成.马褂木生长习性、分布与造林初探[J].林业科学研究,1988,1(3):334—339.
[8]王章荣.鹅掌楸属树种杂交育种与利用[M].北京:中国林业出版社,2004.
[9]刘榕,史元增.甘肃杨树[M].兰州:兰州大学出版社,1995.
[10]孟宪宇.测树学(第二版)[M].北京:中国林业出版社,1996.
[11]沈国舫.森林培育学[M].北京:中国林业出版社,2002.
[12]罗世家,艾训儒,彭诚.黄山松人工林材积生长规律的研究[J].林业科技,2002,27(6):4—6.
[13]秦光华,姜岳忠,马玲,等.欧美杨新无性系苗期年生长模型的研究[J].内蒙古林业科技,2003(2):40—43.
[14]向志民,何敏.几种杨树生长进程动态分析[J].西北林学院学报,1994,9(2):82—86.
[15]秦光华,乔玉玲,孟昭和.美洲黑杨新无性系T26和T66林期年高生长节律的研究[J].江苏林业科技,2002,29(4):6—8.
[1]季孔庶,王章荣,温小荣.杂交鹅掌楸生长表现及其木材胶合板性能[J].南京林业大学学报(自然科学版),2005,29(1):71—74.
[2]成俊卿,杨家驹,刘鹏,等.中国木材志[M].北京:中国林业出版社,1992.
[3]中国林业科学研究院木材工业研究所.中国主要树种的木材物理力学性质[M].北京:中国林业出版社,1982.
[4]徐朝阳.杂种鹅掌楸材性研究[C].南京:南京林业大学研究生学位论文,2004.
[5]李周岐,王章荣.鹅掌楸属杯向杂种苗期生长性状的遗传变异与优良遗传型选择[J].西北林学院报,2001,16(2):5—9.
[6]王章荣.鹅掌楸属杂交育种回顾与展望[J].南京林业大学学报(自然科学版),2003,27(3):76—78.
[7]刘春延.河北塞罕坝华北落叶松人工林生长及生境因子关系研究[C].北京:北京林业大学研究生学位论文,2009.
[8]刘榕,史元增.甘肃杨树[M].兰州:兰州大学出版社,1995.
[9]袁嘉祖.灰色系统理论及其应用[M].北京:科学出版社,1991.
[10]郝日明,贺善安,汤诗杰,等.鹅掌楸在中国的自然分布及其特点[J].植物资源与环境,1995,4(1):1—6.
[11]俞良亮,季孔庶,王章荣.不同种源鹅掌楸一年生播种苗的年生长规律[J].林业科技开发,2008,22(3):23—26.
[1]方炎明.中国鹅掌楸的地理分布与空间格局[J].南京林业大学学报(自然科学版),1994,18(2):13—18.
[2]郝日明,贺善安,汤诗杰,等.鹅掌揪在中国的自然分布及其特点[J].植物资源与环境,1995,4(1):1—6.
[3]季孔庶,王章荣.杂种鹅掌楸的产业化前景与发展策略[J].林业科技开发,2002,16(1):3—6.
[4]季孔庶,王章荣,温小荣.杂交鹅掌楸生长表现及其木材胶合板性能[J].南京林业大学学报(自然科学版),2005,29(1):71-74.
[5]罗兆安.杂交鹅掌楸与杉木实生苗造林对比试验[J].安徽林业,2004,5:18.
[6]颜立红,左海松,殷元良,等.杂交鹅掌楸丘陵区栽培试验研究[J].湖南林业科技,2002,29(4):19,34.
[7]武慧贞.杂交鹅掌楸引种试验[J].湖北林业科技,1990,(3):16—18.
[8]黄昌春.福建沙县26年生杂种马褂木人工林生物量与生产力研究[J].福建林业科技,2008,35(3):10-13.
[9]黄韬,钟秋平,彭小燕.鹅掌楸人工林生物量及生产力的研究[J].江西林业科技,2000,5:4—9.
[10]王志明,余梅林,刘智,等.鹅掌楸生长发育特性及配套技术[J].浙江林学院学报,1995,12(2):149—155.
[11]高惠璇.应用多元统计分析[M].北京:北京大学出版社,2005.
[12]张文彤,董伟.SPSS统计分析高级教程[M].北京:高等教育出版社,2004.
[13]Korner C. Alpine Plant Life:Functional Plant Ecology of High Mountain Ecosystems[M]. New York: Springer Berlin Heidelberg,2003.
[14]Tranquillini W. Physiological Ecology of the Alpine Timberline:Tree Existence at High Altitude with Special Reference to the European Alps, Ecological Studies[M]. New York:Springer Berlin Heidelberg, 1979.
[15]Barry R G. Mountain Weather and Climate[M]. Melbourne:Law Book Co of Australasia,1981.
[16]曹铁如,陆承松,杨一团,等.高海拔山地营造鹅掌楸林的研究初报[J].湖南林业科技,1989,3:10—13.
[17]李凯荣,王佑民.黄土塬区剌槐林地水分条件与生产力研究[J].水土保持通报,1990,(6):58—65.
[18]王礼先,朱金兆.水土保持学[M].北京:中国林业出版社,2005.
[19]Donald E. Beck, Lino Della-Bianca. Yellow-Poplar:Characteristics and Management[M]. Washington: Agriculture Handbook No.583 of U.S. Department of Agriculture Forest Service,1981.
[20]焦醒,刘广全.黄土高原刺槐生长状况及其影响因子[J].国际沙棘研究与开发,2009,6(2):42—48.
[21]东北林学院.土壤学[M].北京:中国林业出版社,1982.
[22]Chapman A. G.. Some effects of varying amounts of nitrogen on the growth of tulip poplar seedlings[J]. Ohio J. Sci.,1933,33:164-181.
[23]李根前,王波,聂新军.西南桦人工幼林生长与立地条件的关系[J].西南林学院学报,2001,21(2):129—132.
[24]Auten John T.. Successful forest planting requires better site appraisals[J]. J. For.,1935,33:861-864.
[25]Auten John T.. Site requirements of yellow-poplar[M]. Columbus:USDA For.Serv., Cent. States For. Exp. Stn., Stn.Note 32,1937.
[26]林代斌,苏含英,马文吉,等.影响水曲柳人工林生长的主导立地因子[J].东北林业大学学报,1999,27(1):20—23.
[1]Wolfe J A. Later cretaceous-cenoroic history of deciduouness and the terminal cretaceous event[J]. Paleobiology,1987, B:215-226.
[2]Parks C R. Wendel J F, Sewell M M, et al. Genetic control isozyme in genus Liriodendron [J]. Journal of Heredity,1990,81(4):317-323.
[3]Parks C R, Wendel J F. Molecular divergence between Asia and North American species of Liriodendron with implications for interpretation of fossil floras[J]. Amer J Bot,1990,77(10):1243-1256.
[4]潘彪,徐朝阳,王章荣.杂交鹅掌楸木材解剖性质及其径向变异规律[J].南京林业大学学报(自然科学版),2005,29(1):79—83.
[5]徐朝阳.杂种鹅掌楸材性研究[D].南京:南京林业大学研究生学位论文,2004.
[6]季孔庶,王章荣,温小荣.杂交鹅掌楸生长表现及其木材胶合板性能[J].南京林业大学学报(自然科学版),2005,29(1):71-74.
[7]季孔庶,王章荣.鹅掌楸属植物研究进展及其繁育策略[J].世界林业研究,2001,14(1):8—15.
[8]汤兆成,潘仙松,郑金福.营造马褂木短伐期菇木林试验初报[J].浙江林业科技,1997,17(5):29—31.
[9]吴运辉,石立昌.鹅掌楸不同造林密度试验初报[J].贵州林业科技,1998,26(2):42—44.
[10]杨志成.马褂木生长习性、分布与造林初探[J].林业科学研究,1988,1(3):334—339.
[11]季孔庶,王章荣.杂种鹅掌楸的产业化前景与发展策略[J].林业科技开发,2002,16(1):3—6.
[12]周志春,李建民,陈炳星,等.几种亚热带速生乡土阔叶树种的制浆特性评价[J].中国造纸,2003,22(2):8—12.
[13]颜立红,左海松,殷元良,等.杂交鹅掌楸丘陵区栽培试验研究[J].湖南林业科技,2002,29(4):19,34.
[14]黄利斌,施士争,祝良林.杂交马褂木无性系造林试验初报[J].江苏林业科技,2008,35(6):1—4.
[1]潘彪,徐朝阳,王章荣.杂交鹅掌楸木材解剖性质及其径向变异规律[J].南京林业大学学报(自然科学版),2005,29(1):79—83.
[2]徐朝阳.杂种鹅掌楸材性研究[D].南京林业大学研究生学位论文,2004.
[3]季孔庶,王章荣,温小荣.杂交鹅掌楸生长表现及其木材胶合板性能[J].南京林业大学学报(自然科学版),2005,29(1):71—74.
[4]季孔庶,王章荣.鹅掌楸属植物研究进展及其繁育策略[J].世界林业研究,2001,14(1):8—15.
[5]汤兆成,潘仙松,郑金福.营造马褂木短伐期菇木林试验初报[J].浙江林业科技,1997,17(5):29—31.
[6]吴运辉,石立昌.鹅掌楸不同造林密度试验初报[J].贵州林业科技,1998,26(2):42—44.
[7]杨志成.马褂木生长习性、分布与造林初探[J].林业科学研究,1988,1(3):334—339.
[8]王章荣.鹅掌楸属树种杂交育种与利用[M].北京:中国林业出版社,2004.
[9]龙应忠,董方平,吴际友,等.湿地松、火炬松造林密度与整地措施研究[J].林业科技通讯,1996,(12):12.
[10]李火根,施季森.杂交鹅掌楸良种选育与种苗繁育[J].林业科技开发,2009,23(3):1—5.
[11]刘辉强.林木施肥研究综述[J].安徽农学通报,2010,16(10):139—141.
[12]王萧洁,邓新文,陈国斌.树木整形修剪的原因和季节[J].黑龙江林业,2002,(10):31—32.
[13]Beck Donald E., Lino Della-Bianca. Yellow-poplar:Characteristics and management[D]. Washington: U.S. Dep.Agric., Agric. Handb.583,1981.
[14]李建民,封剑文,谢芳,等.鹅掌楸人工林的丰产特性[J].林业科学研究,2000,13(6):622—627.
[15]刘化桐.闽北山地7种阔叶树种造林对比试验[J].福建林业科技,2004,31(4):62—64.
[16]刘盛芳,曹鹏云,柴艺秀,等.鹅掌楸的栽培技术[J].山东林业科技,2004,2:48.
[17]胡伯智,厉荣良,冯建国.杉木优良家系实生苗与扦插苗造林效果比较[J].南京林业大学学报(自然科学版),1999,23(4):74—75.
[18]姜远标,章岳涛,邓桂香,等.思茅松扦插苗与实生苗造林效果比较研究[J].林业资源管理,2006,(5):34—39.
[19]覃冀,罗敏,刘晚传,等.高脂马尾松扦插苗与实生苗造林早期生长比较[J].广东林业科技,2010,(3):62—64.
[20]Limstrom Gustaf A., R. F. Finn, G. H. Deitschman. Planting stock grades for yellow—poplar[J]. J. For., 1955,53:28-32.
[21]浙江省质量技术监督局.浙江省地方标准——主要造林树种苗木质量等级(DB33/177—2005)[s].杭州,2005.
[22]Van de Werken, Hendrik, James G. Warmbrod. esponse of shade trees to fertilization[J]. RFarm and Home Sci. Prog. Rep.,1969,72:2-4.
[23]Finn, Raymond F., Donald P. White. Commercial fertilizers increase growth in a yellow poplar plantation[J]. J. For.,1966,64:809-810.
[24]陈瑞炎.不同修剪强度对樟树生长的影响[J].福建林学院学报,2010,30(2):154—156.
[25]刘春利,袁德水,郭万军,等.华北落叶松不同修剪方式对新生枝条生长及雌花量影响[J].河北林果研究,2008,23(4):380—382.
[26]刘化桐.马褂木的人工栽培技术[J].林业科技开发,2004,18(6):77.
[1]洑香香.杂种马褂木繁殖方法的比较[J].江苏林业科技,1999,26(3):46—47.
[2]郭继善.关于杂利,马褂木的扦插繁殖[J].林业科技开发,1995(2):2—3.
[3]陈金慧,施季森.鹅掌楸组培苗的生根及移栽技术[J].林业科技开发,2002,16(5):21—22.
[4]张艳芳.樱花切接苗的接后管理和成型培育[J].湖北花卉园艺,2004,(9):14—15.
[5]沈国舫.森林培育学[M].北京:中国林业出版社,2002.
[6]罗世家,艾训儒,彭诚.黄山松人工林材积生长规律的研究[J].林业科技,2002,27(6):4—6.
[7]陈志生,白忠义,吴立群.系统抽样在苗木调查中的应用[J].防护林科技,2000,4:58—60.
[8]季孔庶.杂交鹅掌楸的无性繁殖[J].南京林业大学学报(自然科学版),2005,29(1):83—87.
[9]王齐瑞,赵金锁,杨海青.杂种鹅掌楸嫁接繁育技术初探[J].浙江林业科技,2005,25(1):46—49.
[10]袁金伟,孙笃玲.杂交马褂木嫁接技术[J].林业科技开发,2004,18(3):66—67.
[11]涂忠虞,黄敏仁.阔叶树遗传改良[M].北京:科技文献出版社,1991.
[12]秦光华,姜岳忠,马玲,等.欧美杨新无性系苗期年生长模型的研究[J].内蒙古林业科技,2003(2):40—43.
[13]秦光华,乔玉玲,孟昭和.美洲黑杨新无性系T26和T66林期年高生长节律的研究[J].江苏林业科技,2002,29(4):6—8.
[14]刘勇.苗木质量调控理论与技术[M].北京:中国林业出版社,1999.
[15]主要造林树种苗木质量分级GB 6000-1999[J].国家质量技术监督局,1999.
[16]高玉艳,杨玉贵,杜群生.银中杨地膜覆盖扦插育苗技术[J].林业科技,2001,26(3):67.
[17]于存忠.南抗杨地膜覆盖扦插育苗的效果分析[J].安徽林业科技,2005,3:17.
[18]D. Scott Green, Eric L. Kruger, Glen R. Stanosz. Effects of polyethylene mulch in a short-rotation, poplar plantation vary with weed-control strategies site quality and clone[J]. Forest Ecology and Management,2003,173:251-160.
[1]周蕴薇,王有传,杨逢建,等.兴安落叶松、樟子松苗木活力与水势关系[J].吉林林业科技,2002,31(3):13—17.
[2]张森,庄丽文,栾士波.苗木水分状况对其成活及生长的影响[J].林业科技,1996,21(1):11—14.
[3]邢世岩.银杏苗木水分研究[J].浙江林业科技,1996,16(1):20—25.
[4]Kramer P J, Kozlowski T T. Physiology of Wood Plants[M]. New York:Academic Press,1979.
[5]喻方圆,郭新保,徐锡增,等.杉木起苗后不同处理方法对根生长势的影响[J].林业科学研究,2002,13(5):539—542.
[6]王迎丽.失水对苗木生理指标的影响[J].林业科技通讯,1993(3):29—32.
[7]沈国舫.森林培育学[M].北京:中国林业出版社,2001.
[8]邹琦.植物生理学实验指导[M].北京:中国林业出版社,2000.
[9]Fife D D, Kreh R E. Seedling root growth potential as a indicator of loblolly pine field performance[J]. For. Sci.1985,31(4):1005-1011.
[10]罗琏.油松苗木生根促进试剂的研究[D].中国林业科学研究院硕士学位论文,2008.
[11]Aldhous J. R.. Nursery practice[D]. London:For. Comm. Bull.43,1972.
[12]Mckay H.M., White I.M.S.. Fine root electrolyte leakage and moisture content:indices of Sitka spruce and Douglas fir seedling performance after desiccation[J]. New Forests,1997,13:139-162.
[13]Tabbush P.M.. Dougter status and forest performance of bare rooted Sitka Spruce and Douglas fir transplants[J]. Forestry,1953,60(1):31-43.
[14]Feret P.P., Kreh R.E., Mulligan C.. Effects of air drying on survival, height and rootgrowth potential of loblolly pine seedlings[J]. Southern J.Appl. For.,1985,9:125-128.
[15]Insley H.. Buckley G.P.. The influence of desiccation and root pruning on the survival and growth of broadleaved seedlings[J]J. Hort. Sci.,1985,60:377-387.
[16]马阿滨,张亚伟.苗木失水对生活力的影响[J].林业科技,1995,20(5):12—15.
[17]李淑铃,侯建治.毛白杨失水对造林效果的影响[J].河南农业大学学报,1993,27(1):46—51.
[18]张春华,李昆,崔永忠,等.川楝苗木失水处理对其活力及造林效果的影响[J].林业科学研究,2006,19(1):70—74.
[19]胡松竹,张露,杜天真,等.晾晒对毛红椿苗木活力的影响[J].江西农业大学学报,2004,26(5):666--669.
[20]李淑玲,侯建治,李荣幸,等.毛白杨苗木失水对造林效果的影响[J].河南农业大学学报,1993,27(1):46—51.
[21]毕会涛,李继东,王哲,等.不同晾晒处理对枣苗水分及成活率的影响[J].中国农学通报,2007,23(2):117—120.
[22]朴英才,胡春平,杨宝茂,等.应用吲哚丁酸处理樟子松苗木的造林试验[J].农药,1987,2:64 —65.
[23]张金荣,张斌珍,樊富花.GGR6号植物生长调节剂对华北落叶松造林的影响及作用机理[J].山西林业科技,2004,2:37—39.
[24]朱明会.植物生长调节剂对华北落叶松造林的影响及生理生化效应[J].山西农业大学学报,2002,3:212—215.
[25]李良厚,贾志英,装海潮.植物激素在干瘠立地侧柏造林中的应用[J].林业科技开发,1995,2:3—4.
[26]侯晶东,宋丽华,曹兵.外源药剂处理对柠条苗木晾晒失水与栽植成活的影响[J].中国农学通报,2010,26(12):86—89.
[27]Zaerr J B. Auxin and the root—regenerating potential in Ponderosa pine seedlings[J]. For. Sci.1967, (13):258-264.
[1]沈国舫.森林培育学[M].北京:中国林业出版社,2001.
[2]McCarthy E. F.. Yellow poplar characteristics, growth and management[J]. U.S. Dep. Agric. Tech. Bull., 1933,356:58.
[3]Russell T. E.. Planting yellow—poplar:where we stand today[J]. USDA For. Serv. Gen. Tech. Rep., 1977, SO—17:8.
[4]李秀芹,张国斌.马褂木繁殖与栽培技术[J].安徽农业科学,2006,34(12):2706—2707.
[5]侯维政,杨成超,彭儒胜.杨树造林间作化学除草试验[J].林业实用技术,2006,5:28—29.
[6]雷鸣宇.板栗整形修剪效应试验[J].经济林研究,1992,10(2):77—78.
[7]王萧洁,邓新文,陈国斌.树木整形修剪的原因和季节[J].黑龙江林业,2002,(10):31—32.
[8]王吉金,张晓平,董莺.不同整地及造林季节造林试验[J].农业科技与信息,2009,20:29.
[9]Belanger R. P., Joseph R. S.. Intensive culture of hardwoods in the South Iowa State[J]. J. Res.,1975, 49:339-344.
[10]Kellison R. C. Hardwood management philosophies and practices In Proc.Symp. on Southeastern Hardwoods[C]. U.S. Dep. Agric. For Serv. Southeast Area, State and Private For.,1971:8-16.
[11】Nugent J.. Artificial regeneration research In Proc. Symp. On Southeastern Hardwoods[C]. U.S. Dep. Agric. For. Serv.Southeast. Area, State and Private For.,1971:50-55.
[12]夏良放,余良富.鹅掌楸、桤木幼抚育技术[J].江西林业科技,2000,4:6—8.
[13]方素霞.马褂木丰产栽培[J].中国林业,2009,6B:474.
[14]余亚平.豫南大别山中国马褂木苗木培育及造林技术[J].农业科技与信息,2007,7:36—37.
[15]刘化桐.马褂木的人工栽培技术[J].林业科技开发,2004,18(6):77.
[16]中华人民共和国国土资源部.2001年中国国土资源公报[N].人民日报,2002年04月22日.
[17]中华人民共和国国家统计局.2010年第六次全国人口普查主要数据公报(第1号)[R].2011年4月28日.
[18]张斌,张桃林.低丘红壤区农林间作系统的水分生态特征及生产力[J].生态学杂志,1997,16(4):1—5.
[1]Wolfe J A. Later cretaceous-cenoroic history of deciduouness and the terminal cretaceous event[J]. Paleobiology,1987,8:215-226.
[2]Parks C R,Wendel J F, Sewell M M, et al. Genetic control isozyme in genus Liriodendron [J]. Journal of Heredity,1990,81(4):317-323.
[3]Parks C R, Wendel J F. Molecular divergence between Asia and North American species of Liriodendron with implications for interpretation of fossil floras[J]. Amer J Bot,1990,77(10):1243-1256.
[4]潘彪,徐朝阳,王章荣.杂交鹅掌楸木材解剖性质及其径向变异规律[J].南京林业大学学报(自然科学版),2005,29(1):79—83.
[5]徐朝阳.杂种鹅掌楸材性研究[D].南京林业大学研究生学位论文,2004.
[6]季孔庶,王章荣,温小荣.杂交鹅掌楸生长表现及其木材胶合板性能[J].南京林业大学学报(自然科学版),2005,29(1):71—74.
[7]季孔庶,王章荣.鹅掌楸属植物研究进展及其繁育策略[J].世界林业研究,2001,14(1):8—15.
[8]汤兆成,潘仙松,郑金福.营造马褂木短伐期菇木林试验初报[J].浙江林业科技,1997,17(5):29—31.
[9]吴运辉,石立昌.鹅掌楸不同造林密度试验初报[J].贵州林业科技,1998,26(2):42—44.
[10]杨志成.马褂木生长习性、分布与造林初探[J].林业科学研究,1988,1(3):334—339.
[11]王章荣.鹅掌楸属树种杂交育种与利用[M].北京:中国林业出版社,2004.
[12]洪伟,吴承祯.试验设计与分析——原理·操作·分析[M].北京:中国林业出版社,2004.
[13]茆诗松,周纪芗,陈颖.试验设计[M].北京:中国统计出版社,2004.
[14]刘红波,陆刚,边宽江.几种实验设计方法的比较[J].安徽农业科学,2007,35(36):11738—11739.
[15]田奇卓,乔新华,陈茂学,等.小麦产量与氮、磷、密度三因素数学模型的优化解析[J].山东农业大学学报,1997,28(3):281—288.
[16]陈晓红,邹志荣,李军,等.温室黄瓜配方施肥N,P,K模型构建[J].西北农林科技大学学报(自然科学版),2003,31(6):85—89.
[17]谢贤健,张健,兰代萍.配比施肥对5年生巨桉人工林生长的影响[J].生物数学学报,2010,25(1):61—70.
[18]中华人民共和国城乡建设环境保护部.城市园林苗圃育苗技术规程(CJ14-86)[S].北京,1986.
[19]Van de Werken, Hendrik, James G. Warmbrod. Response of shade trees to fertilization[J]. Farm and Home Sci. Prog. Rep.,1969,72:2-4.
[20]Broadfoot W. M., A. F. Ike. Research progress in fertilizing southern hardwoods[J]. In Forest fertilization:theory and practice,1968:180-184.
[21]Finn, Raymond F., Donald P. White. Commercial fertilizers increase growth in a yellow poplar plantation[J]. J. For.,1966,64:809-810.
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