DIGITALNA ARHIVA ŠUMARSKOG LISTA
prilagođeno pretraživanje po punom tekstu
ŠUMARSKI LIST 1-2/2012 str. 17 <-- 17 --> PDF |
Ž. Škvorc, K. Sever, J. Franjić, D. Krstonošić, M. Poljak: INTENZITET FOTOSINTEZE I VEGETATIVNI ... Šumarski list br. 1–2, CXXXVI (2012), 7-17 Hendry, G.A.F., A.H.Pirce,1993. Stress indica tors: Chlorophylls and carotenoids, pp. 148–152. In Hendry, G.A.F., and J.P. Grime (Eds.). Methods in Comparative Plant Ecology. Chapman and Hall, London, U.K. Jifon, J.L. 2005. Growth environmentand leaf anatomy affect nondestructive estimates of chlorophyll and nitrogen in Citrus sp. leaves. J.Amer. Soc. Hor. Sci., 130: 152–158. Jimenez,M.S., A.M.Gonzalez-Rodriguez, D. Morales,M.C.Cid,A.R.Socorro, M.Cabalero, 1997.Evaluation of chlorophyll florescence as a tool for salt stress detection in roses. Photosyntetica, 33: 291–301. Lambers,H.,Chapin,F.S.,Pons, T.L. 2003. Plant Physiological Ecology. Springer, London, U.K. rd Larcher,W.2005. Physiological Plant Ecology. 3 Edition. Springer, London, U.K. rd Lawlor, D.W.2001. Photosyntesis. 3 Edition. Scientific Publishers Limited, Oxford, U.K. Le Hir,R., N.Leduc, E. Jeannette,J.D. Viémont, S.Pelleschi-Travier,2005. Variations in sucrose and ABA concentrations are concomitant with heteroblastic leaf shape changes in a rhytmically growing species (Quercus robur).Tree Physiol, 26: 229–238. Leuschren, C., K., Backes, D. Hertel, F. Schipka, U. Schmitt, O. Terborg, M. Runge,2001. Drought responses at leaf, stem and fine root leaves of competitiveFagus sylvaticaL. and (Quercus petreae(Matt.) Lieb. trees in dry and wet years. For Ecol Menage, 149: 33–46. Loh,F. C.W.,J.C.Grabosky,N.L.Bassuk,2002. Using the SPAD 502 meter to assess chlorophyll and nitrogen content of benjamin fig and cottonwood leaves. HortTehnology, 12: 682–686. Marquard,R.D., J.L. Tipton,1987. Relationsheep between extractable chlorophyll and an in situ method to estimate leaf greenness. HortScience, 22:1327–1329. Mohammed, G.H., T.L. Noland, W.C. Parker, R.G. Wagner,1997. Pre-planting physiological stress assessment to forecast field growth perfor mance of jack pine and black spruce. For Ecol Menage, 92: 107–117. Parelle,J., J.P.Roudaut, M.Ducrey,2006. Light aclimation and photosintetic response of beech (Fagus sylvaticaL.) saplings under artifical shading or natural Mediterranean conditions. Ann Sci For, 63: 257–266. Percival,G.C., I.P.Keary, K.Noviss,2008. The potential of a chlorophyll content SPAD meter to quantify nutrient stress in foliar tissue os Sycamore (Acer pseudoplatanus), English oak (Quercus robur), and European beech (Fagus sylvatica). Arboriculture & Urban Forestry, 34: 89–100. Pinkard,E.A., V. Patel, C. Mohammed,2006. Chlorophyll and nitrogen determination for plantation-grownEucalyptus nitensandE. globules using a non-destructive meter. For Ecol Menage, 223: 211–217. Seletković, I.2006. Utjecajgnojidbedušikom, fosforomikalijemnarastirazvojsadnicahrasta lužnjaka (Quercus robur L.). Disertacija, 134 str., Zagreb. StatSoft, Inc., 2006. STATISTICA(data analysis software system), version 7.1. www.statsoft.com Ueda,M.U., E.Mizumachi, N. Tokuchi,2009. Allocation of nitrogen within the crown during leaf expansion in Quercus serrata saplings.Tree Physiol, 10: 1–7. Weih, M., A.C. Rönnberg-Wästljung, 2007. Shoot biomass growth is related to the vertical leaf nitrogen gradient in Salix canopies. Tree Physiol, 27: 1551–1559. Xu, L., D.D. Baldocchi, 2003. Sesonal trends in photosynthetic parameters and stomatal conductance of blue oak (Quercus douglasii) under prolonged summer drought and high temperature. Tree Physiol, 23: 865–877. SUMMARY: The effect of various types of environmental stress factors on forest trees is most often manifested through the reduced absorption of mineral nutriments. This results in lowered efficiency of photosynthetic pigments on the leaf’s cellular level and production of insufficient amounts of carbohydrates necessary for normal vegetative growth. Due to sudden increase in concentration of carotenoids in relation to chlorophyll, which is susceptible to a sudden destruction under the effect of stress factors, a change takes place in the relative amounts of chlorophyll and carotenoids. Because of this, the lea |