1 |
Mengel K, Kirkby E A.张宜春译.植物营养原理.北京:农业出版社出版, 1987-12第一版, ISBN 7-109-00040-0/S.27
|
2 |
Epstein E. Mineral Nutrition of Plants: Prineiples & Perspectives. John Wiley and Sons, Inc. New York. ISBN 0-0471-24340-X. 1972
|
3 |
Ingestad T . Relaive addition rate and external concentration; driving variable used in plant nutrition research. Plant, Cell & Environ, 1982. 5 (6): 443- 453.
|
4 |
David T , Clarkson & John B Hanson . The mineral nutrition of higher plants. Ann. Rev. Plant physiol, 1980. 31, 239- 298.
doi: 10.1146/annurev.pp.31.060180.001323
|
5 |
Asher C J, Edwards D G. Modern solution culture techniques. In Encyclopedia of Plant Physiology, New Series(A. Pirson & M. H. Zimmermenn, eds), Vol. 15A, pp. 94 ~ 119. Spriinger-verlag, Berlin, 1983, ISBN. 3-540-12103-x.
|
6 |
Ingestad T. Quantitative mineral nutrition of forest trees. Lecture by the 1989 Prize Winner. Printed on 150gm s Stora Art. by Stralins, crycksbo
|
7 |
Ingestad T , Lund A B . Theory and techniques of steady-state mineral nutrition and growth of plants. Seand. J. For. Res, 1986. 1 (4): 439- 453.
|
8 |
Olsen C . The significance of concentration on the rate of ion absorption by higher plants in water culture. Ⅲ. importance of stirring. Physiol. Plant, 1953. 6, 844- 847.
doi: 10.1111/j.1399-3054.1953.tb08452.x
|
9 |
Pettersson S . Growth, contents of K+ and kineties of K+(86Rb) uptake in barley cultured at different low supply rates of potassium. Physiol. Plant, 1986. 66, 122- 128.
doi: 10.1111/j.1399-3054.1986.tb01243.x
|
10 |
Ingestad T , Ågren G I . Nutrient uptake and allocation at steady-state mutition. Physiol. Plant, 1988. 72, 450- 459.
doi: 10.1111/j.1399-3054.1988.tb09150.x
|
11 |
赵晓俊, 崔澂. 营养液膜技术的研究和应用. 植物生理学通讯, 1986. (6): 15- 19.
|
12 |
贾慧君, 郑槐明. 植物稳态矿质营养研究的理论与技术. 植物生理学通讯, 1991. 27 (4): 307- 310.
|
13 |
Ingestad T. The concept of nutrient requirements in plants.In Recent advances in plant nutrition(ed. R. M. Samish) 1971, p633
|
14 |
Ingestad T , Lund A B . Nitrogen stress in birch seedlings. I. Growth technique and growth. Physiol. Plant, 1979. 45, 137- 148.
doi: 10.1111/j.1399-3054.1979.tb01678.x
|
15 |
Jia Hui-jun , Ingestad T . Nutrient requirements and stress response of Populus simonii and Paulownia tomentosa. Physiol. Plant., 1984. 62 (2): 117- 124.
|
16 |
贾慧君, IngestadT. 兰考泡桐和刺槐幼苗最适营养需要的研究. 林业科学, 1989. 2591, 1- 6.
|
17 |
贾慧君, 郑槐明. 兰考泡桐幼苗稳态矿质营养比较研究. 北京林业大学学报, 1993. 15 (3): 12- 18.
|
18 |
贾慧君, 郑槐明. 兰考泡桐根插苗的生长和营养状况的研究. 林业科学研究, 1988. 1 (5): 485- 491.
|
19 |
贾慧君, 郑槐明, 李江南, 等. 稳态营养原则在杉木、湿地松苗木施肥中的应用. 北京林业大学学报, 1994. 16 (4): 65- 74.
|
20 |
贾慧君, 郑槐明, 李江南, 等. 湿地松容器苗稳态营养与土壤矿化作用的研究. 林业科学, 1998. 34 (1): 9- 17.
|
21 |
贾慧君, 郑槐明, 花晓梅, 等. 稳态营养对湿地松容器苗Pt外生菌根形成及生长效应研究. 林业科学, 1997. 33 (1): 51- 58.
|
22 |
郑槐明, 贾慧君, 陆新育, 等. 泡桐营养比例在田间育苗中的应用. 泡桐与农用林业, 1989. (1): 24- 29.
|
23 |
贾慧君, 郑槐明, 陆新育, 等. 泡桐农用幼林配比施肥研究初报. 泡桐与农用林业, 1993. (3): 69- 74.
|
24 |
Hadas A , Feigin A , et al. Nitrogen mineralization in the field atvarious soil depths. Journal of Soil Science, 1989. 40 (1): 131- 137.
|
25 |
Ruehle J L , Marx D H . Fiber, food, fuel and fungal symbionts. Science, 1979. 206, 419- 422.
doi: 10.1126/science.206.4417.419
|
26 |
Marx D H , et al. Commercial vegetative inoculum of Pisolithus tinctorius and inoculation techniques for development of ectomycorrhizae on container-grown tree seedlings. Forest Science, 1989. 28, 373- 400.
|
27 |
郑槐明, 贾慧君, 连友钦, 等. 稀土对泡桐苗木生长效应的研究. 林业科学研究, 1990. 3 (3): 275- 279.
|
28 |
Ingestad T , Kähr M . Nutrition and growth of coniferous seedlings at varied relative nitrogen addition rate. Physiol. Plant, 1985. 15 (2): 109- 116.
|
29 |
Ericsson T , Kähr M . Growth and nutrition of birch seedlings in relation to potassium supply rate. Trees, 1993. 7 (2): 78- 85.
|
30 |
Ericsson T , Ingestad T . Nutrition and growth of birch seedlings at varied relative phosphorus addition rates. Physiol. Plant, 1988. 72 (3): 227- 235.
|
31 |
Göransson A . Growth and nutrition of small Betula pendula plants at different relatire addition rates of iron. Trees, 1993. 8 (1): 31- 38.
|
32 |
Göransson A . Growth and nutrition of small Betula pendula plants at different relative addition rates of manganese. Tree Physiol, 1994. 14 (15): 375- 388.
|
33 |
Ericsson T , Kähr M . Growth and nutrition of birch seedlings at varied relative addition rates of magnesium. Tree Physiol, 1995. 15 (2): 85- 93.
doi: 10.1093/treephys/15.2.85
|
34 |
Göransson a, McDonald A J S. Growth and nutrition of small Betula pendula plants at different relative addition rates of iron, manganese and zine. Plant nutition-from genetic engineering to field practive: Proceedings of the Twelfth International Plant Nutrition Colloquium September, 1993, 21 ~ 26, Perth, Western Australia[ edited by Barrow, N. J. ] 1993, 697 ~ 700.
|
35 |
Imo M , Timmer V R . Nitrogen uptake of mesquite seedlings at conventional and exponen tial fertilization schedules. Soil Sci. Soc. Am. J, 1992. 56 (3): 927- 934.
doi: 10.2136/sssaj1992.03615995005600030041x
|
36 |
Timmer V R , Armstrong G , Miller B D . Steady-state nutrient preconditioning and early outplanting performance of containerized black spruce seedlings. Can. J. Fot. Res, 1991. 21 (5): 585- 594.
doi: 10.1139/x91-080
|
37 |
Polglase P J , Attiwill P M , Adams M A . Nitrogen and phosphorus cycling in relation to stand age of Eucalyptus regnans F. Muell. Ⅱ. N Mineralization and nitrification. Plant & Soil, 1992. 142 (2): 167- 176.
|
38 |
Ingestad T , McDonald A J S . Interaction between nitrogen and photon flux density in birch seedlings at steady-state nutrition. Physiol. Plant, 1989. 77 (1): 1- 11.
|
39 |
McDonald A J S , Lohammar T , Ingestad T . Net assimilation rate and shoot area development in birch(Betula penula Roth) at different steady-state values of nutrition andphoton flux density. Trees, 1992. 6 (1): 1- 6.
|
40 |
Pettersson R , McDonald A J S , Stadenberg I . Respones of small birch plants (Betula pendula Roth) to elevated CO2 and nitrogen supply. Plant Cell & Environment, 1993. 16 (9): 1115- 1121.
|
41 |
Göransson A , Eldhuset T D . Effects of aluminum on growth and nutrient uptake of Betula pendula seedlings. Physiol. Plant, 1989. 69 (2): 193- 199.
|
42 |
Göransson a , Eldhuset T D . Effects of aluminum on growt and nutrient uptake of small Picea abies and Pinus sylvestris plants. Trees: Structure and Function, 1991. 5 (3): 136- 142.
|
43 |
Kähr M , Arveby A S . A method for establishing ectomycorrhiza on conifer seedlings in steady-state conditions of nutrition. Physiol. Plant, 1986. 67 (3): 333- 339.
doi: 10.1111/j.1399-3054.1986.tb05744.x
|
44 |
Ingestad T , Areby A S , Kähr M . The influence of ectomycorrhiza on nitrogen nutrition and growth of Pinus sylvestris seedlings. Physiol. Plant, 1989. 68 (5): 575- 582.
|
45 |
Nylund J E , Wallander H . Effects of ectomycorrhiza on host growth and carbon balance in asemi-hydroponic cultivation system. New Phytologist, 1989. 112 (3): 389- 398.
doi: 10.1111/j.1469-8137.1989.tb00328.x
|
46 |
Colpaert J V , Laere A V , Assche J A . Carbon and nitrogen allocation in ectomycorrhizal and non-mycorrhizal Pinus sylvestris L. Tree Physiol, 1996. 16 (9): 787- 793.
doi: 10.1093/treephys/16.9.787
|
47 |
Aphalo P J , Lehto T . Effects of light quality on growth and Naccumulation in birch seedlings. Tree Physiol, 1997. 17 (2): 125- 132.
doi: 10.1093/treephys/17.2.125
|
48 |
Tamm C O . Anattempt to assess the optimum nitrogen level in Norway spruce under field conditions. Stud. For. Suec, 1968. 61, 1- 67.
|
49 |
Ingestad T , Aronsson a , Ågren G I . Nutrient flux density of mineral nutrition in conifer ecosystems. Studia Forestalia Suec, 1981. 61- 71.
|
50 |
Ingestad T . New concepts on soil fertility and plant nutrition as illustrated by research on forest trees and stands. Geoderma, 1987. 40, 237- 252.
doi: 10.1016/0016-7061(87)90035-8
|
51 |
Ågren G I . Nitrogen productivity of some conifers. Can. J. For. Res, 1983. 13, 494- 500.
doi: 10.1139/x83-073
|
52 |
Ågren G I . Theory for growth of plants derived from the nitrogen productivity concept. Physiol. Plant, 1985. 64, 17- 28.
doi: 10.1111/j.1399-3054.1985.tb01207.x
|
53 |
Ingestad T , Ågren G I . Theories and methods on plant nutrition and growth. Physiol. Plan, 1992. 84, 177- 184.
doi: 10.1111/j.1399-3054.1992.tb08781.x
|