Annual N and P nutrient levels and foliar resorption in Alnus glutinosa subsp. glutinosa (Betulaceae) leaves
Yıl: 2009 Cilt: 3 Sayı: 1 Sayfa Aralığı: 6 - 11 Metin Dili: İngilizce İndeks Tarihi: 29-07-2022
Annual N and P nutrient levels and foliar resorption in Alnus glutinosa subsp. glutinosa (Betulaceae) leaves
Öz: Alnus glutinosa (Betulaceae) has a widespread distribution in the Central Black Sea Region of Turkey. In this study, annual nitrogen (N) and phosphorus (P) dynamics and foliar resorption efficiency and proficiency were investigated in A. glutinosa. N and P concentrations were decreased in senescent leaves. Statistically significant differences were found in P concentrations while there were no found significant differences in N concentrations with respect to months. A negative correlation was obtained between SLA and LMA, SLA and N concentrations. However, there were significant correlations between LMA and N concentrations. N and P resorption efficiency (NRE, PRE) and proficiency (NRP, PRP) values were high as compared to the other deciduous species. These results indicate efficient internal cycling of nutrients especially P in A. glutinosa.
Anahtar Kelime: Konular:
Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık
- [1] Regina IS, Tarazona T. 2001. Nutrient cycling in natural beech forest and adjacent planted pine in northern Spain. Forestry. 74: 11-28.
- [2] Van Heerwaarden, LM, Toet S, Aerts R, 2003. Current measures of nutrient resorption efficiency lead to a substantial underestimation of real resorption efficiency: facts and solutions. Oikos. 101: 664–669.
- [3] Aerts R. 1996. Nutrient resorption from senescing leaves of perennials. Are there general patterns? Journal of Ecology. 84: 597-608.
- [4] Kobe RK, Lepczyk CA, Iyer M. 2005. Rersorption efficiency decreases with increasing green leaf nutrients in global data set. Ecology. 86: 2780-2792.
- [5] Niinements U, Tamm U. 2005. Species differences in timing of leaf fall and foliage chemistry modify nutrient resorption efficiency in deciduous temperate forest stands. Tree Physiol. 25: 1001-1014.
- [6] Vitousek PM, Howart RW. 1991. Nitrogen limitation on land and in the sea: how. can it occur? Biogeochemistry. 13: 87–115.
- [7] Killingbeck KT. 1996. Nutrients in senesced leaves: keys to the search for potential RESORPTION and resorption proficiency. Ecology 77: 1716–1727.
- [8] Killingbeck KT. 2004. Nutrient resorption. In: Nooden LD (ed) Plant Cell Death and Related Processes. Academic Press, San Diego. pp 215-226.
- [9] Meteorological Bulletin, 2006. Mean and extreme temperature and rainfall values. Meteorology, Ordu.
- [10] Davis PH, Mill RR, Tan K. (eds). 1988. Flora of Turkey and the East Aegean Islands (Suppl.)Vol. X, Edinburgh University Press, Edinburgh.
- [11] Boerner REJ, Koslowsky SD. 1989. Microcite variations in soil chemistry nitrogen mineralization in an bee chmaple forest. Soil Biochemistry. 21: 795–801.
- [12] Allen SE, Grimshaw HM, Parkinson JA, Quarmby C, Roberts JD. 1976. Chemical Analysis. In: Chapman SB(ed). Methods in Plant Ecology, Blackwell Scientific Publications & Oxford 411-466.
- [13] Anonymous 1999. SPSS 10.0 for Windows. SPSS Inc., New York.
- [14] Cornelissen JHC, Werger MJA, Castro-Diez P, Ven Rheen JWA, Rowland AP, 1997. Foliar nutrients in relation to growth allocation and leaf traits in seedlings of a wide range of woody plant species. Oecologia. 111: 460–469
- [15] Kutbay HG, 2001. Nutrient content in leaves from different strata of a swamp forest from Norhhern Turkey. Polish Journal of Ecology. 49: 221–230.
- [16] Robert B, Caritat A, Bertoni G, Vilar L, Molinas M. 1996 a. Nutrient content and seasonal mfluctuations in the leaf component of cork-oak (Quercus suber L.) litterfall. Vegetatio. 122: 29–35
- [17] Robert B, Bertoni G, Sayag D, Mason P. 1996 b. Assessment of mineral nutrition of cork-oak through foliar analysis Comunications Suoil Science. Plant Analysis 27: 2091-2109.
- [18] Kutbay HG, Kılınç M. 1994. Sclerophylly in Quercus cerris L. var. cerris and Phillyrea latifolia L. Edaphic relations of these species. Vegetatio. 113: 98–97.
- [19] Huang J, Wang X, Yan E. 2007. Leaf nutrient concentration, nutrient resorption and litter decomposition in an evergreen broad-leaved forest in eastern China. For Ecol Manag. 239: 150-158.
- [20] Staaf H. 1982. Plant nutrient changes in beech leaves during senescence as influenced by site characteristics. Oecologia. Plantarum 3: 161–170.
- [21] Boerner REJ. 1984. Foliar nutrient dynamics and nutrient use efficiency of four deciduous tree species in relation to nutrient fertility. Journal of Applied Ecology. 21: 1029–1040.
- 22] Escudero A, Ve Del Arco JM, Garrido MV, 1992. The efficiency of nitrogen retranslocation from leaf biomass in Quercus ilex ecosystems. Vegetatio. 99–100: 225–237.
- [23] Cote B, Fyles JW, Djalilvand H. 2002. Increasing N and P resorption efficiency and proficiency in northern deciduous hardwoods with decreasing foliar N and P concentrations. Annals of Forest Science. 59: 275–281.
- [24] Killingbeck KT, Costigan SA, 1988. Element resorption in a guild of understory shrub species: niche differentiation and resorption thresholds. Oikos. 53: 366–374.
- [25] Kutbay HG, Yalçın E, Bilgin E. 2003. Foliar N and P resortption and foliar nutrient concentrations in canopy and subcanopy of a Fagus orientalis Lipsky forest. Belg J Bot. 136: 35-44.
- [26] Mayor X, Rodá F. 1992. Is primary production in holm oak forests nutrient limited ? Vegetatio 99: 209-217.
- [27] De Mars BG, Boerner R.E.J 1997. Foliar nutrient dynamics and resorption in naturalized Lonicera maackii (Caprifoliaceae) populations in Ohio, USA. American Journal of Botany 84: 112-117
- [28] Yuan ZY, LI Lh, Han XG, Huang J.H, Jiang GM, Wan SQ. 2005. Effect of nitrogen supply on the nitrogen use efficiency of an annual herb, Helianthus annuus L. Journal of Integrated Plant Biology. 47: 539–548.
- [29] Güsewell S, 2004. N:P ratios in terrestrial plants: variation and functional significance. New Phytologist. 164: 243–266.
- [30] Koerselman W, Meuleman A.F.M. 1996. The vegetation N:P ratio: a new tool to detect the nature of nutrient limitation. Journal of Applied Ecology. 33: 1441–1450.
- [31] Aerts R, Chapin F.S. 2000. The mineral nutrition of wild plants revisited: A re-evolution of processes and patterns. Advanced Ecological Research 30: 1-67
- [32] Scheuber M., Morais R. O., Klein C. H. 1997. Methodological conception of the survey in the gallery forest of the Bananal River at the National Park of Brasilia. (In: Proceedings International Symposium on Assesment and Monitoring of Forests in Tropical Dry Regions with Reference to Gallery Forests Brazil, Eds: Encinas J I and Klein C) Universidade de Brasilia, pp. 77-89.
- [33] Schiavini I. 1997. Environmental characterization and groups of species in gallery forests. (In: Proceedings International Symposium on Assesment and Monitoring of Forests in Tropical Dry Regions with Reference to Gallery Forests Brazil, Eds: Encinas J I and Klein C) Universidade de Brasilia, pp. 107-113.
- [34] Ozbucak T., Kutbay H. G., Korkmaz H., Ozbucak S. 2008. The leaf phenology of woody plants in the gallery forests (Central Black Sea Region, Turkey) Acta Botanica Croatica 67: 21-31.
| APA | ÖZBUCAK T, Kutbay H, TÜRKİŞ S (2009). Annual N and P nutrient levels and foliar resorption in Alnus glutinosa subsp. glutinosa (Betulaceae) leaves. , 6 - 11. |
| Chicago | ÖZBUCAK Tuğba Bayrak,Kutbay Hamdi Güray,TÜRKİŞ Sevda Annual N and P nutrient levels and foliar resorption in Alnus glutinosa subsp. glutinosa (Betulaceae) leaves. (2009): 6 - 11. |
| MLA | ÖZBUCAK Tuğba Bayrak,Kutbay Hamdi Güray,TÜRKİŞ Sevda Annual N and P nutrient levels and foliar resorption in Alnus glutinosa subsp. glutinosa (Betulaceae) leaves. , 2009, ss.6 - 11. |
| AMA | ÖZBUCAK T,Kutbay H,TÜRKİŞ S Annual N and P nutrient levels and foliar resorption in Alnus glutinosa subsp. glutinosa (Betulaceae) leaves. . 2009; 6 - 11. |
| Vancouver | ÖZBUCAK T,Kutbay H,TÜRKİŞ S Annual N and P nutrient levels and foliar resorption in Alnus glutinosa subsp. glutinosa (Betulaceae) leaves. . 2009; 6 - 11. |
| IEEE | ÖZBUCAK T,Kutbay H,TÜRKİŞ S "Annual N and P nutrient levels and foliar resorption in Alnus glutinosa subsp. glutinosa (Betulaceae) leaves." , ss.6 - 11, 2009. |
| ISNAD | ÖZBUCAK, Tuğba Bayrak vd. "Annual N and P nutrient levels and foliar resorption in Alnus glutinosa subsp. glutinosa (Betulaceae) leaves". (2009), 6-11. |
| APA | ÖZBUCAK T, Kutbay H, TÜRKİŞ S (2009). Annual N and P nutrient levels and foliar resorption in Alnus glutinosa subsp. glutinosa (Betulaceae) leaves. Journal of Applied Biological Sciences, 3(1), 6 - 11. |
| Chicago | ÖZBUCAK Tuğba Bayrak,Kutbay Hamdi Güray,TÜRKİŞ Sevda Annual N and P nutrient levels and foliar resorption in Alnus glutinosa subsp. glutinosa (Betulaceae) leaves. Journal of Applied Biological Sciences 3, no.1 (2009): 6 - 11. |
| MLA | ÖZBUCAK Tuğba Bayrak,Kutbay Hamdi Güray,TÜRKİŞ Sevda Annual N and P nutrient levels and foliar resorption in Alnus glutinosa subsp. glutinosa (Betulaceae) leaves. Journal of Applied Biological Sciences, vol.3, no.1, 2009, ss.6 - 11. |
| AMA | ÖZBUCAK T,Kutbay H,TÜRKİŞ S Annual N and P nutrient levels and foliar resorption in Alnus glutinosa subsp. glutinosa (Betulaceae) leaves. Journal of Applied Biological Sciences. 2009; 3(1): 6 - 11. |
| Vancouver | ÖZBUCAK T,Kutbay H,TÜRKİŞ S Annual N and P nutrient levels and foliar resorption in Alnus glutinosa subsp. glutinosa (Betulaceae) leaves. Journal of Applied Biological Sciences. 2009; 3(1): 6 - 11. |
| IEEE | ÖZBUCAK T,Kutbay H,TÜRKİŞ S "Annual N and P nutrient levels and foliar resorption in Alnus glutinosa subsp. glutinosa (Betulaceae) leaves." Journal of Applied Biological Sciences, 3, ss.6 - 11, 2009. |
| ISNAD | ÖZBUCAK, Tuğba Bayrak vd. "Annual N and P nutrient levels and foliar resorption in Alnus glutinosa subsp. glutinosa (Betulaceae) leaves". Journal of Applied Biological Sciences 3/1 (2009), 6-11. |
