Warianty tytułu
Języki publikacji
Abstrakty
Gallery forests in Central Black Sea Region are dominated by Platanus orientalis L. The studies were performed in four sites (Mert River, Adalar, Kurupelit and Taflan Regions) located in V-shaped river valleys and differing with soil conditions. Nutrient concentrations were measured in green and senescent leaves in selected sympatric tree species. Foliar nutrient resorption efficiency (RE; as the ratio of the resorbed amounts of nutrient losses during the leaf senescence to its prior amount deposited in the leaves) and proficiency (RP; the level to which nutrient content per unit leaf mass, mg g[^-1], has been reduced in senescent leaves) were examined in several sympatric species. The high nitrogen resorption efficiency (N-RE) (62%) were found in Hedera helix L., while the lowest (40%) . in Salix alba L. The phosphorus resorption efficiency (P-RE) ranged between 35% (Rubus discolor Weithe and Nees) and 50% (S. alba) and that of potassium (K-RE) ranged between 49% (S. alba) and 62% (Robinia pseudoacacia L.). The different trend was observed in the values of proficiency (RP). The high nitrogen resorption proficiency (N-RP) ranged between 10 mg g[^-1] (Clematis vitalba L.) and 18 mg g[^-1] (R. discolor). The high phosphorus resorption proficiency (P-RP) was found in R. discolor (0.5 mg g[^-1]) similar to N-RP. The lowest P-RP was found in R. pseudoacacia (0.3 mg g[^-1]) like K-RP (5 mg g[^-1]). The high K-RP (10 mg g[^-1]) was found in H. helix. There is no significant difference between four study sites. Soil N, P and organic matter concentrations were significantly correlated with green-leaf N, P and K concentrations. Significant correlations were also found between K-RP and soil nutrient concentrations and soil moisture. However, no significant correlations were found among green-leaf nutrient concentrations, RE, RP and soil nutrient concentrations and moisture.
Czasopismo
Rocznik
Tom
Strony
227-237
Opis fizyczny
Bibliogr. 56 poz.,rys., tab.,
Twórcy
autor
autor
autor
autor
autor
autor
autor
- University of Ordu, Faculty of Science & Arts, Department of Biology, Ordu/ Turkey, eryalcin@omu.edu.tr
Bibliografia
- Aerts R. 1996 – Nutrient resorption from senescing leaves of perennials: Are there general patterns? – J. Ecol. 84: 597–608.
- Aerts R., Chapin F.S. 2000 – The mineral nutrition of wild plants revisited: A re-evolution of processes and patterns – Adv. Ecol. Res. 30: 1–67.
- Allen S.E., Grimshaw H.M., Parkinson J.A., Quarmby C., Roberts J.D. 1986 - Chemical analysis. (In: Methods in Plant Ecology, Ed.: S. B. Chapman) – Blackwell Scientific Publications, Oxford, pp. 411–466.
- Bigelow S.W. 1993 – Leaf nutrients in relation to stature and life form in tropical rain forest - J. Veg. Sci. 4: 401–408.
- Boerner R.E.J. 1984 – Foliar nutrient dynamics, growth and nutrient use efficiency of Hamamelis virginiana in three forest microsites - Can. J. Bot. 63: 1476–1481.
- Boerner R.E.J., Koslowsky S.D. 1989 - Microsite variations in soil chemistry and nitrogen mineralization in a beech-maple forest - Soil Biol. Biochem. 21: 795–801.
- Brummitt R.K., Powell C.E. 1992 – Authors of Plant Names – Royal Botanic Gardens, Kew, Edinburg, 733 pp.
- Cai Zhi-quan., Bongers F. 2007 – Conrasting nitrogen and phosphorus resorption efficiencies in tress and lianas from a tropical montane rain forest in Xishuangbanna, southwest China – J. Trop. Ecol. 23: 115–118.
- Chapin F.S. 1980 – The mineral nutrition of wild plants – Ann. Rev. Ecol. Syst. 11: 233–260.
- Côté B., Fyles J.W., Djalilvand H. 2002 – Increasing N and P resorption efficiency and proficiency in northern deciduous hardwoods with decreasing foliar N and P concentrations - Ann. For. Sci. 59: 275–281.
- Davis P.H. 1982 – Flora of Turkey and the East Aegean Islands: Vol VII – Edinburgh University Press, Edinburgh, 567 pp.
- DeMars B.G., Boerner R.E.J. 1997 – Foliar nutrient dynamics and resorption in naturalized Lonicera maackii (Caprifoliaceae) populations in Ohio, USA – Am. J. Bot. 84: 112–117.
- Ingram S.W., Lowman M.D. 1995 – The collection and preservation of plant material from the tropical forest canopy – For. Can. 22: 587–603.
- Kılınc M., Kutbay H.G., Yalcın E., Bilgin 2006 – Bitki Ekolojisi ve Bitki Sosyolojisi Uygulamaları [Plant Ecology and Plant Sociology Practices] – Palme Publications, 362 pp. (in Turkish).
- Killingbeck K.T. 1996 – Nutrients in senesced leaves: keys to the search for potential resorption and resorption proficiency – Ecology 77: 1716–1727.
- Killingbeck K.T. 2004 – Nutrient resorption. (In: Plant Cell Death and Related Processes, Ed.: L D. Noodén) – Academic Press, San Diego, pp. 215–226.
- Killingbeck K.T., Costigan S.A. 1988 - Element resorption in a guild of understory shrub species: niche differentiation and resorption thresholds – Oikos 53: 366–374.
- Kobe R.K., Lepczyk C.A., Iyer M. 2005 - Resorption efficiency decreases with increasing green leaf nutrients in a global data set – Ecology 86: 2780–2792.
- Kost J.A., Boerner R.E.J. 1985 – Foliar nutrient dynamics and nutrient use efficiency in Cornus florida – Oecologia 66: 602–606.
- Kutbay H.G. 2001 – Nutrient content in leaves from different strata of a swamp forest from Northern Turkey – Pol. J. Ecol. 49: 21–230.
- Kutbay H.G., Kılınc M. 1995 – A phytosociological and ecological investigation on Bafra Nebyan Mountain and its environs - Tur. J. Bot. 19: 41–63.
- Kutbay H.G., Ok T. 2003 – Foliar N and P resorption and nutrient levels along an elevational gradient in Juniperus oxycedrus L. subsp. macrocarpa (Sibth. & Sm.) Ball. – Ann. For. Sci. 60: 449–454.
- Kutbay H.G., Yalcın E., Bilgin A. 2003 - Foliar N and P resorption and foliar nutrient concentration in canopy and subcanopy of a Fagus orientalis forest – Belg. J. Bot. 136: 35–44.
- Lajtha K. 1987 – Nutrient reabsorption efficiency and the response to phosphorus fertilization in the desert shrub Larrea tridentata (dc) cov. – Biogeochemistry 4: 265–276.
- Lima A.L.S., Zanella F., Schiavianto M.A., Haddad C.R.B. 2006 – N availability and mechanisms of N conservation in deciduous and semideciduous tropical forest legume trees – Acta Bot. Brasil. 20: 625–632.
- Lovett G.M., Weathers K.C., Arthur M.A., Schultz J.C. 2004 – Nitrogen cycling in a northern hardwood forest: Do species matter? – Biogeochemistry 67: 289–308.
- Lower S.L., Orians C.M. 2003 – Soil nutrients and water availability interact to influence willow growth and chemistry but not leaf beetle performence – Entom. Exp. Appl. 107: 69–79.
- Martínez-Sánchez J.L. 2005 – Nitrogen and phosphorus resorption in a neotropical rain forest of a nutrient-rich soil – Int. J.Trop. Biol. 53: 353–359.
- May J.D., Burdette S.B., Gilliam F.S., Adams M.B. 2005 – Interspecific divergence in foliar nutrient dynamics and stem growth in a temperate forest in reponse to chronic nitrogen inputs – Can. J. For. Res. 35: 1023–1030.
- Milla R., Castro-Díez P., Maestro-Martínez M., Montserrat-Martí G. 2005 - Does the gradualness of leaf shedding govern nutrient resorption from senescing leaves in Mediterranean woody plants? – Plant Soil 278: 303–313.
- Minoletti M.L., Boerner R.E.J. 1994 – Drought and site fertility effects on foliar nitrogen and phosphorus dynamics and nutrient resorption by the forest understory shrub Viburnum acerifolium L. – Am. Mid. Nat. 131: 109–119.
- Naiman R.J., Fetherston K.L, McKay J.S., Chen J. 1998 – Riparian Forests. (In: River Ecology and Management: Lessons from the Pacific Coastal Ecoregion, Ed.: R J Naiman) - Springer-Verlag, New York, pp. 289–323.
- Nambiar E.K.S., Fife D.N. 1991 – Nutrient resorption in temperate conifers – Tree Physiol. 9: 185–207.
- Niinemets 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.
- Ögeas J., Ourcival J.M., Bonin G. 2002 - Seasonal and spatial patterns of foliar nutrients in cork oak (Quercus suber L.) growing on siliceous soils in Provence (France) – Plant Ecol. 164: 201–211.
- Öbucak T., Kutbay H.G., Korkmaz H., Öbucak S. 2008 – The leaf phenology of woody plants in the gallery forests (Central Black Sea Region, Turkey) – Acta Bot. Croat. 67(1): 21–31.
- Phillips O.L., Martinez R.V., Mendoza A.M., Baker T.R., Vargas P.N. 2005 - Large lianas as hyperdynamic elements of the tropical forest canopy – Ecology 86: 1250–1258.
- Quézel P., Barbero M., Akman Y. 1980 Contribution a l’etude de la vegetation forestiere d’Anatolie septentrionale – Phytocoenologia 5: 365–529. (in French)
- Rejmànkovà E. 2005 – Nutrient resorption in wetland macrophytes: comparison across several regions of different nutrient status – New Phytol 167: 471–482.
- Rentería L.Y., Jaramillo V.J., Martínez-Yrízar A., Pérez-Jiménez A. 2005 – Nitrogen and phosphorus resorpion in trees of a Mexican tropical dry forest – Trees 19: 431–441.
- Richardson S.J., Peltzer D.A., Allen R.B., McGlone M.S. 2005 – Resorption proficiency along a chronosequence; responses among communities and within species - Ecology 86: 20–25.
- 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.
- 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.
- Schilling E.B., Lockaby B.G. 2006 – Relationships between productivity and nutrient circulation within two contrasting southeastern U. S. floodplain forests – Wetlands 26: 181–192.
- SPSS 10.0 1999 – Software for Windows- SPSS Inc., New York.
- Stapel M., Hemminga M.A. 1997 – Nutrient resorption from seagrass leaves – Marine Biol. 128: 197–206.
- Tanner E.V.J. 1985 – Jamaican montane forests: nutrient capital and cost of growth – J. Ecol. 73: 553–568.
- Teklay T. 2004 – Seasonal dynamics in the concentrations of macronutrients and organic constituents in green and senesced leaves of three agroforestry species in southern Ethiopia Plant Soil 267: 297–307.
- Van Heerwaarden L.M., 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.
- Van Heerwaarden L.M. 2004 – From leaf to litter: nutrient resorption in a changing environment PhD Thesis, Vrije Universiteit, pp. 69.
- Wright I.J., Westoby M. 2003 – Nutrient concentration, resorption and lifespan: leaf traits of Australian sclerophyll species – Funct. Ecol. 17: 10–19.
- Yasumura Y., Onoda Y., Hikosaka K., Hirose T. 2005 – Nitrogen resorption from leaves under different growth irradiance in three deciduous woody species – Plant Ecol. 178: 29–37.
- Yuan A., Wan S., Zhou X., Subedar A.A., Wallace L.L., Luo Y. 2005a – Plant nitrogen concentration, use efficiency, and contents in a tallgrass praire ecosystem under experimental warming – Global Chan. Biol. 11: 1733–1744.
- Yuan Z.Y., Li L.H., Han X.G., Huang J.H., Jiang G.M., Wan S.Q .2005b – Soil characteristics and nutrient resorption in Salix krylovii native to northern China – Plant Soil 273: 257–268.
- Yuan Z.Y., Li L.H., Han G., Huang J.H., Wan S.Q. 2005c – Foliar nutrient dynamics and nutrient resorption of a sandy shrub Salix gordejevii in northern China – Plant Soil 278: 183–193.
- Zotz G. 2004 – The resorption of phosphous is greater than that of nitrogen in senescing leaves of vascular epiphytes of lowland Panama – J. Trop. Ecol. 20: 693–696.
Typ dokumentu
Bibliografia
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Identyfikator YADDA
bwmeta1.element.baztech-article-BGPK-2071-7718