PDF
Abstract
Chemical analysis of ammonium, nitrate and total nitrogen in tree leaves and roots and anin-vivo bioassay for nitrate reductase activity (NRA) were used to monitor the seasonal variations in nitrogen assimilation among four coexisting dominant tree species, includingPinus koraiensis, Tilia amurensis, Fraxinus mandshurica andAcer mono, in a virgin mixed broad-leaved/Korean pine (Pinus koraiensis) forest. The soil study included individual horizons of L+F (0–5 cm), Ah (5–11 cm) and Aw (11–25 cm). All four species had nitrate and ammonium in their roots and leaves, and also NRA in leaves. This indicated that these coexisting species were adapted to ammonium + nitrate nutrition. A negative correlation existed between nitrate use and ammonium use. Ammonium concentration was higher than that of nitrate in tree leaves and roots, and also in soils, which indicated climax woody species had a relative preference for ammonium nutrition. There was a positive relationship between tree nitrogen nutrition use and soil nitrogen nutrient supply. Utilization of ammonium and nitrate as well as the seasonal patterns differed significantly between the species. Peaks of ammonium, nitrate, NRA and total nitrogen in one species were therefore not necessarily synchronous with peaks in other species, and which indicated a species-specific seasonal use of nitrogen. The species-specific temporal differentiation in nitrogen use might reduce the competition between co-existing species and may be an important mechanism promoting stability of virgin mixed broad-leaved//Korean pine forest.
Keywords
Mixed broad-leaved/Korean pine forest
/
Coexistence
/
Climax stability
/
Nitrogen nutrition
Cite this article
Download citation ▾
Li Yuwen.
Dynamics of nitrogen nutrition of coexisting dominant trees in mixed broad-leaved/Korean pine forest.
Journal of Forestry Research, 1999, 10(4): 203-206 DOI:10.1007/BF02855454
| [1] |
Addoms R.M. Nurtitional studies on loblolly pine plant physiol., 1937, 12: 199-205.
|
| [2] |
Al Gharbi A., Hipkin C.R. Studies on nitrate reductase in British angiosperms. I. A comparison of nitrate reductase activly inruderal, woodland-edge and woody species New Phytologist, 1984, 97: 629-639.
|
| [3] |
Lee I.A., Stewart G.R. Ecological aspects of nitrogen metabolism Addances in Botanical Research, 1978, 6: 1-43.
|
| [4] |
Hauck R.K. Nitrogen source requirements in different soil-plant systems Forest Fertilization: Theory and Practise, 1968 Musele Shoals, Ala: Tenn. Valley Auth. 47-57.
|
| [5] |
Yuwen Li, Ying Li, Junqing Li et al. Nitrogen nutrient relation of the dominant tree species in deciduous dorean pine forest and poplar-birch forests Journal of Northeast Forestry University, 1994, 22(1): 7-16.
|
| [6] |
Yuwen Li, Yixin Chai, Hedao Yang et al. The nitrogen nutrient dynamic process of the domenant tree species in deciduous dorean pine forest Journal of Northeast Forestry University, 1994, 22(4): 22-26.
|
| [7] |
Yuwen Li, Wang Yeh-chu Nitrogen nutrient mechanism in secondarys accession process of the mixed broad-leaved/Korean pine (Pinus koraiensis) forest Journal of Northeast Forestry University, 1995, 23(3): 100-104.
|
| [8] |
Tamm, C.O. 1991. Nitrogen in terrestrial ecsystems. Questions ofproductivity, vegetation al changes, and ecosystem stability. Ecological Studies,81():
|
| [9] |
Vitousek P.M., Gosz J.R., Grier C.C., Melillo J.M., Reiners W.A. A comparative analysis of potential nitrofication and nitratemobitity in forest ecosystems Forest Monographs, 1982, 52: 155-177.
|
| [10] |
Hanxi Yang, Yegang Wu Tree composition, age structure and regeneration strategy of the mixed broadleaf koreanpine forest in Chang bai shan Biospher Reserve, China Scientia Silvae SinicAe, 1988, 24(1): 18-27.
|
| [11] |
Ning Zhu, Hong Jiang, Yongyan Jin Phenology of common species in natural secondary forests of Heilongjiang Province I. Phenological expression and phenospectrum. II. phenology types and bionomic phenology strategy phenomenon Northern Forest: Silviculture and Management, 1988 Harbin: Northeast Forestry University Press 29-40.
|
