Foliar nitrogen (N),phoshorus (P) dynamics,and foliar resorption of Corylus avellana var. avellana

KILIÇ, DUDU DUYGU; Kutbay, Hamdi Güray; ÖZBUCAK, BAYRAK Tuba; YALÇIN, Sevda

Foliar nitrogen (N),phoshorus (P) dynamics,and foliar resorption of Corylus avellana var. avellana

BAYRAK Tuba ÖZBUCAK, (Ordu Üniversitesi, Fen Edebiyat Fakültesi, Biyoloji Bölümü, Cumhuriyet Kampüsü, Ordu, Türkiye)

Hamdi Güray KUTBAY, (Ondokuz Mayıs Üniversitesi, Fen Edebiyat Fakültesi, Biyoloji Kliniği, Kurupelit, Samsun, Türkiye)

Sevda YALÇIN, (Ordu Üniversitesi, Fen Edebiyat Fakültesi, Biyoloji Bölümü, Cumhuriyet Kampüsü, Ordu, Türkiye)

Dudu Duygu KILIÇ (Amasya Bilim ve Sanat Merkezi, Amasya, Türkiye)

Ekoloji

0 0

Yıl: 2011 Cilt: 20 Sayı: 81 Sayfa Aralığı: 1 - 7 Metin Dili: Türkçe İndeks Tarihi: 29-07-2022

Foliar nitrogen (N),phoshorus (P) dynamics,and foliar resorption of Corylus avellana var. avellana

Öz:

Corylus avellana var. avellana (Corylaceae) Türkiye'nin Orta Karadeniz Bölgesinde geniş bir yayılışa sahip olup besin endüstrisi için çok değerlidir. Bu bitki Türkiye'nin Karadeniz Bölgesinin ekonomisinde önemli rol oynamaktadır. Bu çalışmada, azot (N) ve fosfor (P) konsantrasyonları, topografik gradient (deniz seviyesinden 550 metreye kadar) ve gelişim sezonu (Nisan'dan Ekim'e kadar) boyunca incelendi. Bunlara ilave olarak, senesens yapraklardan geri alınan N ve P besin elementlerinin konsantrasyon oranı olarak tanımlanan yaprak rezorbsiyonu, rezorbsiyon verimliliği $(_{RE})$ ve rezorbsiyon yeterliliği $(_{RP})$ olarak çalışıldı. Yaprak P konsantrasyonu, yaprak N/P oranı ve SLA'nm gelişme mevsimi boyunca istatistiksel yönden önemli değişim göstermesine karşın yaprak N konsantrasyonu ve spesifik yaprak alanı (SYA) gelişme mevsimi boyunca değişim göstermemektedir.$N_{RE,} P_{RE,} N_{RP,} ve P_{RP}$ dışındaki tüm yaprak özellikleri yükseklik gradiyenti boyunca önemli değişim göstermektedir. N- ve P- kısıtlamasının bir göstergesi olan N/P oranı hem gelişme mevsimi hem de-yükseklik gradiyenti boyunca azalmaktadır. C. avellana var. avellana'nın senesens yapraklarının N ve P konsantrasyonları topografik gradient boyunca sırasıyla, 50 $mu{g} $ $mc-^2$ ve 3 $mu{g} $ $mc-^2$ nin altındadır ve C. avellana var. avellana eşik değeri sınırlarına göre N ve P- bakımından yeterlidir. Toprak özellikleri de yükseklik faktörü boyunca değişim göstermektedir.

Anahtar Kelime: yapraklar Türkiye azot Corylus avellana Karadeniz Bölgesi fosfor tekrar soğurma

Konular: Biyoloji Ziraat Mühendisliği

Corylus avellana var.avellana' da yaprak azot (N), ve fosfor (P)dinamikleri ve yaprak rezorbsiyonu

Öz:

Corylus avellana var. avellana (Corylaceae) has a widespread distribution in the Central Black Sea Region of Turkey and is very valuable in the food industry and plays an important role in the economy of the Black Sea Region of Turkey. In this study, nitrogen (N) and phosphorus (P) concentrations along a topographical gradient (from sea level to 550 m) and through the growing season (from April to October) were investigated. In addition to this, foliar resorption was also studied as resorption efficiency $(_{RE})$and resorption proficiency $(_{RP})$) which is defined as the proportion of nutrients withdrawn from leaves and the N and P concentrations in senesced leaves, respectively. Statistically significant differences were not found with respect to leaf N concentration and SLA during the growing season although leaf P concentration, leaf N/P ratio and SLA were significantly changed during the growing season. Except for$N_{RE,} P_{RE,} N_{RP,} and P_{RP}$all of the leaf traits were significantly changed along the topographic gradient. The N/P ratio which is an indicator of N- and P-limitation decreased during the growing season and along the topographic gradient. The N and P concentrations in the senescent leaves of C. avellana was below 50 $mu{g} $ $mc-^2$ 3 $mu{g} $ $mc-^2$ respectively along the topographic gradient and this species is N and P-proficient according to the threshold values. Soil properties along the topographic gradient also changed.

Anahtar Kelime: leaves Turkey nitrogen Corylus avellana Black Sea Region phosphorus resorption

Konular: Biyoloji Ziraat Mühendisliği

Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık

Aerts R (1996) Nutrient resorption from senescing leaves of perennials: Are there general patterns? Journal of Ecology 84: 597-608.
Aerts R, Chapin FS III (2000) The mineral nutrition of wild plants revisited: a re-evolution of processes and patterns. Advanced Ecological Research 30: 1-67.
Allen SE, Grimshaw HM, Parkinson JA, Quarmby C, Roberts J (1986) Chemical Analysis. In: Chapman SB (eds) Methods in Plant Ecology, Blackwell Scientific Publications, Oxford, 411-466.
Anonymous (2009) SPSS 13.0 for Windows. SPSS Inc., New York.
Anonymous (1999) Net Cad for Windows. Version 2.0 90 b 56.
Aydinoglu A, Aydmoglu S (2004) An investigation on nutritional problems of hazelnut (Corylus avellana) grown in acid soils of Turkey. Pakistan Journal of Biological Sciences 7: 1433-1437.
Baslar S, Kula I, Doğan Y, Yıldiz D, Ay G (2009) A Study of Trace Element Contents in Plants Growing at Honaz Dagi-Denizli, Turkey. Ekoloji 18 (72): 1-7.
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.
Boerner REJ, Koslowsky, SD (1989) Microsite variations in soil chemistry and nitrogen mineralization in an beech maple forest. Soil Biology and Biochemistry 21: 795-801.
Chapin FS (1980) The mineral nutrition of wild plants- Annual Review of Ecology and Systematics 11:223-260.
Chapin FS, Kedrowski RA (1983) Seasonal changes in nitrogen and phosphorus fractions and autumn retranslocation in evergreen and deciduous taiga trees. Ecology 64: 376-391.
Chapman HD, Pratt PF (1973) Methods of analysis for soils, plants and waters. University of California Press, Riverside.
Cornelissen JHC, Werger MJA, Castro-Dıez P, van Rheenen JWA, Rowland AP (1997) Foliar nutrients in relation to growth, allocation and leaf traits in seedlings of a wide range of woody plant species and types. Oecologia 111: 460-469.
Covelo F, Rodriguez A, Gallardo A (2008) Spatial pattern and scale of leaf N and P resorption efficiency and proficiency in a Quercus robur population. Plant and Soil 311: 109-119.
Davis PH (1965- 1988) Flora of Turkey and East Aegean Islands: Vols. 1-10 Edinburgh University Press, Edinburgh.
Demirayak A, Kutbay HG, Kılıç D, Bilgin A, Huseyinova R (2011) Heavy Metal Accumulation in Some Natural and Exotic Plants in Samsun City. Ekoloji 20 (79): 1-11.
Doğan Y, Ugulu I, Baslar S (2010) Turkish Red Pine as a Biomonitor: A Comparative Study of the Accumulation of Trace Elements in the Needles and Bark. Ekoloji 19 (75): 88-96.
Gallardo JF, Martin A, Moreno G (1999) Nutrient efficiency and resortion in Quercus pyrenaica oak coppices under different rainfall regimes of the Sierra de Gata mountains (central western Spain). Annals of Forest Science 56: 321-331.
Grubb PJ (1977) Control of forest growth and distribution on wet tropical mountains. Annual Review of Ecology and Systematics 8: 38-107.
Guleryuz G, Everest A (2010) Nitrogen mineralization in the soils of the conifer forest communities in the Eastern Mediterranean. Ekoloji 19 (74): 51-59.
Hidaka A, Kitayama K (2011) Allocation of foliar phosphorus fractions and leaf traits of tropical tree species in response to decreased soil phosphorus availability on Mount Kinabalu, Borneo. Journal of Ecology 99: 849-857.
Huseyinova R, Kutbay HG, Bilgin A, Kılıç D, Horuz A, Kirmanoglu C (2009) Sulphur and some heavy metal contents in foliage of Corylus avellana and some roadside native plants in Ordu Province, Turkey. Ekoloji 18 (70): 10-16.
Karacic A, Weih M (2006) Variation in growth and resource utilisation among eight poplar clones grown under different irrigation and fertilisation regimes in Sweden. Biomass and Bioenergy 30: 115-124.
Kilic DD, Kutbay HG, Özbucak T, Huseyinova R (2010) Foliar resorption in Quercus petraea subsp. iberica and Arbutus andrachne along an elevational gradient. Annals of Forest Science 67: 213-220
Kinalioglu K, Ozbucak TB, Kutbay HG, Huseyinova R, Bilgin A, Demirayak A (2010) Biomonitoring of Trace Elements with Lichens in Samsun City, Turkey. Ekoloji 19 (75): 64-70.
Killingbeck KT (1996) Nutrients in senesced leaves: keys to the search for potential resorption and resorption proficiency. Ecology 77: 1716-1727.
Kost JA, Boerner REJ (1985) Foliar nutrient dynamics and nutrient use efficiency in Cornus jlorida. Oecologia 66: 602-606.
Kutbay HG (2000) Sclerophylly in Fraxinus angustifolia Vahl. subsp. oxycarpa (Bieb. ex Willd.) Franco & Rocha Afonso and Laurus nobilis L. and edaphic relations of these species. Turkish Journal of Botany 24: 113-119.
Kutbay HG (2001) Nutrient content in leaves from different strata of a swamp forest from Northern Turkey. Polish Journal of Ecology 49: 21-230.
Kutbay HG, Kılınç M (2002) Top senescence in some members of Amaryllidaceae family in central and East Black Sea regions of Turkey. Pakistan Journal of Botany 34: 173-190.
Kutbay HG, Yalcin E, Bilgin A (2003) Foliar N and P resorption and foliar nutrient concentrations in canopy and subcanopy of a Fagus orientalis forest. Belgian Journal of Botany 136: 35-44.
Liu J, Zeng D, Lee DK, Fan Z, Zhong L (2008) Leaf traits and their interrelationship of 23 plant species in southeast of Keerqin Sandy Lands, China. Frontiers of Biology in China 3: 332-337.
Marschner H (1995) Mineral Nutrition of Higher Plants 2nd edition Academic Press, London.
Mayor X, Roda F (1992) Is primary production in holm oak forests nutrient limited? Vegetatio 99: 209-217.
Medina E (1984) Nutrient Balance and Physiological Processes at the Leaf Level. In: Medina E, Mooney HA, Vasquez-Yanes C (eds) Physiological Ecology of Plants of the Wet Tropics, Junk, The Hague, 139-154.
Migita C, Chiba Y, Tange T (2007) Seasonal and spatial variations in leaf nitrogen content and resorption in a Quercus serrata canopy. Tree Physiology 2: 63-70.
Milla R, Castro-Diez P, Maestro-Martinez M, Montserrat-Marti G (2005) Does the gradualness of leaf shedding govern nutrient resorption from senescing leaves in Mediterranean woody plants? Plant and Soil 278: 303-313.
Milosevic T, Milosevic N, Glisic I, Paunovic G (2009) Leaf nutritional status and macronutrient dynamiics in European hazelnut (Corylus avellana L.) under western Serbian conditions. Pakistan Journal of Botany 41: 3169-3178.
Minoletti ML, Boerner REJ (1994) Drought and site fertility effects on foliar nitrogen and phosphorus dynamics and nutrient resorption by the forest understory shrub Viburnum acerifolium L. American Midland Naturalist 131: 109-119.
Orgeas J, Ourcival JM, Bonin G (2002) Seasonal and spatial patterns of foliar nutrients in cork oak (Quercus suber L.) growing on siliceous soils in Provence (France). Plant Ecology 164: 201-211.
Rejmankova E (2005) Nutrient resorption in wetland macrophytes: comparison across several regions of different nutrient status. New Phytologist 167: 471-482.
Roche P, Diaz-Burlinson N, Gachet S(2004) Congruency analysis of species ranking based on leaf traits: Which traits are the more reliable. Plant Ecology 174: 37-48.
Rubio-Covarrubias OA, Brown PH, Weinbaum SA, Johnson RS, Cabrera RI (2009) Evaluating foliar nitrogen compounds as indicators of nitrogen status in Prunus persica trees. Scientia Horticulturae 120: 27-33.
Tarakcioglu C, Yalcin SR, Bayrak A, Kucuk M, Karabacak H (2003) Ordu yöresinde yetiştirilen fındık bitkisinin (Corylus avellana L.) beslenme durumunun toprak ve yaprak analizleriyle belirlenmesi. Tarım Bilimleri Dergisi 9: 1-22.
Teklay T (2004) Seasonal dynamics in the concentrations of macronutrients and organic constituents in gren and senesced leaves of three agroforestry species in southern Ethiopia. Plant and Soil 267: 297-307.
Triadiati T, Tjitrosemito S, Guhardja E, Sudarsono S, Qaym I, Leuschner C (2007) Nitrogen resorption and nitrogen use efficiency in cacao agroforestry systems managed differently in Central Sulawesi. Hayatı Journal of Biosciences 14: 127-132.
Turkis S, Ozbucak T (2010) Foliar resorption and chlorophyll content in leaves of Cistus creticus L. (Cistaceae) along an elevational gradient in Turkey. Acta Botanica Croatica 69: 275-290.
Yuan ZY, Chen HYH (2010) Changes in nitrogen resorption of trembling aspen (Populus tremuloides) with stand development. Plant and Soil 327: 121-129
Yucel E, Guner ST (2010) Sulphur Pollution and its Dependency on the Altitude in the West Anatolian Scots Pine Forest. Ekoloji 19 (76): 1-7.
Wei L, Zhai Q (2010) The dynamics and correlation between nitrogen phosphorus, potassium and calcium in a hazelnut fruit during its development. Frontier of Agriculture in China 4: 352-357.

APA	ÖZBUCAK B, Kutbay H, YALÇIN S, KILIÇ D (2011). Foliar nitrogen (N),phoshorus (P) dynamics,and foliar resorption of Corylus avellana var. avellana. , 1 - 7.
Chicago	ÖZBUCAK BAYRAK Tuba,Kutbay Hamdi Güray,YALÇIN Sevda,KILIÇ DUDU DUYGU Foliar nitrogen (N),phoshorus (P) dynamics,and foliar resorption of Corylus avellana var. avellana. (2011): 1 - 7.
MLA	ÖZBUCAK BAYRAK Tuba,Kutbay Hamdi Güray,YALÇIN Sevda,KILIÇ DUDU DUYGU Foliar nitrogen (N),phoshorus (P) dynamics,and foliar resorption of Corylus avellana var. avellana. , 2011, ss.1 - 7.
AMA	ÖZBUCAK B,Kutbay H,YALÇIN S,KILIÇ D Foliar nitrogen (N),phoshorus (P) dynamics,and foliar resorption of Corylus avellana var. avellana. . 2011; 1 - 7.
Vancouver	ÖZBUCAK B,Kutbay H,YALÇIN S,KILIÇ D Foliar nitrogen (N),phoshorus (P) dynamics,and foliar resorption of Corylus avellana var. avellana. . 2011; 1 - 7.
IEEE	ÖZBUCAK B,Kutbay H,YALÇIN S,KILIÇ D "Foliar nitrogen (N),phoshorus (P) dynamics,and foliar resorption of Corylus avellana var. avellana." , ss.1 - 7, 2011.
ISNAD	ÖZBUCAK, BAYRAK Tuba vd. "Foliar nitrogen (N),phoshorus (P) dynamics,and foliar resorption of Corylus avellana var. avellana". (2011), 1-7.

APA	ÖZBUCAK B, Kutbay H, YALÇIN S, KILIÇ D (2011). Foliar nitrogen (N),phoshorus (P) dynamics,and foliar resorption of Corylus avellana var. avellana. Ekoloji, 20(81), 1 - 7.
Chicago	ÖZBUCAK BAYRAK Tuba,Kutbay Hamdi Güray,YALÇIN Sevda,KILIÇ DUDU DUYGU Foliar nitrogen (N),phoshorus (P) dynamics,and foliar resorption of Corylus avellana var. avellana. Ekoloji 20, no.81 (2011): 1 - 7.
MLA	ÖZBUCAK BAYRAK Tuba,Kutbay Hamdi Güray,YALÇIN Sevda,KILIÇ DUDU DUYGU Foliar nitrogen (N),phoshorus (P) dynamics,and foliar resorption of Corylus avellana var. avellana. Ekoloji, vol.20, no.81, 2011, ss.1 - 7.
AMA	ÖZBUCAK B,Kutbay H,YALÇIN S,KILIÇ D Foliar nitrogen (N),phoshorus (P) dynamics,and foliar resorption of Corylus avellana var. avellana. Ekoloji. 2011; 20(81): 1 - 7.
Vancouver	ÖZBUCAK B,Kutbay H,YALÇIN S,KILIÇ D Foliar nitrogen (N),phoshorus (P) dynamics,and foliar resorption of Corylus avellana var. avellana. Ekoloji. 2011; 20(81): 1 - 7.
IEEE	ÖZBUCAK B,Kutbay H,YALÇIN S,KILIÇ D "Foliar nitrogen (N),phoshorus (P) dynamics,and foliar resorption of Corylus avellana var. avellana." Ekoloji, 20, ss.1 - 7, 2011.
ISNAD	ÖZBUCAK, BAYRAK Tuba vd. "Foliar nitrogen (N),phoshorus (P) dynamics,and foliar resorption of Corylus avellana var. avellana". Ekoloji 20/81 (2011), 1-7.