Free Access
Volume 64, Number 1, January-February 2009
Page(s) 45 - 51
Published online 23 January 2009
  1. Smart R.E., Photosynthesis by grapevine canopies, J. Appl. Ecol. 11 (1974) 997–1006. [CrossRef] [Google Scholar]
  2. Barlow H.W.B., The relationship between leaf size and shoot length in apple, Hortic. Sci. 55 (1980) 279–283. [Google Scholar]
  3. Hughes B.R., Proctor J.T.A., Estimation of leaflet, leaf and total leaf area of Panax quinquefolius L. using linear measurements, J. Am. Soc. Hortic. Sci. 106 (1981) 167–170. [Google Scholar]
  4. Smith R.J., Kliewer W.M., Estimation of Thompson seedless grapevine leaf area, Am. J. Enol. Vitic. 35 (1984) 16–22. [Google Scholar]
  5. Smart R.E., Principles of grapevine canopy microclimate manipulation with implications for yield and quality: a review, Am. J. Enol. Vitic. 36 (1985) 230–239. [Google Scholar]
  6. Williams L.E., Growth of ‘Thompson seedless’ grapevines. I. Leaf area development and dry weight distribution, J. Am. Soc. Hortic. Sci. 112 (1987) 325–330. [Google Scholar]
  7. Kalina J., Slovak V., The inexpensive tool for the determination of projected leaf area, Ekol. Bratisl. 23 (2004) 163–167. [Google Scholar]
  8. Potdar M.V., Pawar K.R., Non-destructive leaf area estimation in banana, Sci. Hortic. 45 (1991) 251–254. [CrossRef] [Google Scholar]
  9. Rieger M., Duemmel M.J., Comparison of drought resistance among Prunus species from divergent habitats, Tree Physiol. 11 (1992) 369–380. [PubMed] [Google Scholar]
  10. Horsley S.B., Gottschalk K.W., Leaf area and net photosynthesis during development of Prunus serotina seedlings, Tree Physiol. 12 (1) (1993) 55–69. [PubMed] [Google Scholar]
  11. Gottschalk K.W., Shade, leaf growth and crown development of Quercus rubra, Quercus velutina, Prunus serotina and Acer rubrum seedlings, Tree Physiol. 14 (1994) 735–749. [PubMed] [Google Scholar]
  12. Kerstiens G., Hawes C.W., Response of growth and carbon allocation to elevated CO2 in young cherry (Prunus avium L.) saplings in relation to root environment, New Phytol. 128 (1994) 607–614. [CrossRef] [Google Scholar]
  13. Picchioni G.A., Weinbaum S.A., Retention and the kinetics of uptake and export of foliage-applied, labelled boron by apple, pear, prune, and sweet cherry leaves, J. Am. Soc. Hortic. Sci. 120 (1995) 28–35. [Google Scholar]
  14. Uzun S., The quantitative effects of temperature and light environment on the growth, development and yield of tomato (Lycopersicon esculentum Mill.) and aubergine (Solanum melongena L.), Univ. Reading, thesis, UK, 1996, 221 p. [Google Scholar]
  15. Centritto M., Loreto F., Massacci A., Pietrini F., Villani M.C., Zacchine M., Improved growth and water use efficiency of cherry saplings under reduced light intensity, Ecol. Res. 15 (2000) 385–392. [CrossRef] [Google Scholar]
  16. Sparks D., A rapid method for estimating the leaf area of the Stuart pecan, Carya illinoensis Koch., HortSci. 1 (1966) 93–94. [Google Scholar]
  17. Kobayashi K.D., Estimating leaf area of ‘Beaumont’ guava, Trop. Agric. 65 (1988) 173–175. [Google Scholar]
  18. Ramkhelawan E., Brathwaite R.A.I., Leaf area estimation by non destructive methods in sour orange (Citrus aurantium L.), Trop. Agric. 67 (1990) 203–206. [Google Scholar]
  19. Lang G.A., Underlying principles of high-density sweet cherry production, Acta Hortic. 667 (2005) 325–335. [Google Scholar]
  20. Anderson R.L., Robinson T., Lang G.A., Managing the Gisela cherry rootstocks. N.Y., Fruit Quarterly 7 (1999) 19–22. [Google Scholar]
  21. Sepulveda G.R., Kliewer W.M., Estimation of leaf area of two grapevine cultivars (Vitis vinifera L.) using laminae linear measurements and fresh weight, Am. J. Enol. Vitic. 34 (1983) 221–226. [Google Scholar]
  22. Elsner E.A., Jubb G.L., Leaf area estimation of concord grape leaves from simple linear measurements, Am. J. Enol. Vitic. 39 (1988) 95–97. [Google Scholar]
  23. Lang G.A., Precocious, dwarfing and productive – How will new cherry rootstocks impact the sweet cherry industry? HortTechnol. 10 (2000) 719–725. [Google Scholar]
  24. Lu H.Y., Lu C.T., Wei M.L., Chan F.L., Comparison of different models for non-destructive leaf area estimation in Taro, Agron. J. 96 (2004) 448–453. [CrossRef] [Google Scholar]
  25. Silva P.S.L., Barbin D., Gonçalvez R.J.S., Firmino J.D.C., Fonseca I.C., Leaf area estimates of custard apple tree progenies, Rev. Bras. Frutic. 26 (2004) 558–560. [Google Scholar]
  26. Fladung M., Ritter, E., Plant leaf area measurements by personal computers, J. Agron. Crop Sci. 166 (1991) 69–70. [CrossRef] [Google Scholar]
  27. Mori S., Kawasaki T., Takeuchi L., Non-destructive measurement of the growth of leaf area by means of a portable copying machine, J. Jpn. For. Soc. 73 (1991) 298–300. [Google Scholar]
  28. Smith W.K., Schoettle A.W., Cui M., Importance of the method of leaf area measurement to the interpretation of gas exchange of complex shoots, Tree Physiol. 8 (1991) 121–127. [PubMed] [Google Scholar]
  29. Blanke M., Scanner for leaf area measurement – leaves keep their form, Gartenbaumag. 3 (1995) 27–28. [Google Scholar]
  30. Ebert G., Leaf area measurement with laser optics, Erwerbsobstbau 37 (1995) 87–188. [Google Scholar]
  31. Villalobos F.J., Orgaz F., Mateos L., Non-destructive measurement of leaf area in olive (Olea europaea L.) trees using a gap inversion method, Agric. For. Meteorol. 73 (1995) 29–42. [CrossRef] [Google Scholar]
  32. Beverly R.B., van Lersel M.V., Calibration of a video image analysis system for measurement of stem length, leaf area, and percent ground coverage, Commun. Soil Sci. Plant Anal. 29 (1998) 1071–1081. [CrossRef] [Google Scholar]
  33. Igathinathane C., Prakash V.S.S., Padma U., Babu G.R., Womac A.R., Interactive computer software development for leaf area measurement, Comput. Electron. Agric. 51 (2006) 1–16. [CrossRef] [Google Scholar]
  34. Manivel L., Weaver R.J., Biometric correlations between leaf area and length measurements of ‘Grenache’ grape leaves, HortSci. 9 (1974) 27–28. [Google Scholar]
  35. Robbins N.S., Pharr D.M., Leaf area prediction models for cucumber from linear measurements, HortSci. 22 (1987) 1264–1266. [Google Scholar]
  36. Tsonev T., Sergiev I., Leaf-area measurement using hand scanner, Photosynth. 29 (1993) 625–630. [Google Scholar]
  37. Baker B., Olszyk D.M., Tingey D., Digital image analysis to estimate leaf area, J. Plant. Physiol. 148 (1996) 530–535. [Google Scholar]
  38. Korva J.T., Forbes G.A., A simple and low cost method for leaf area measurement of detached leaves, Exp. Agric. 33 (1997) 65–72. [CrossRef] [Google Scholar]
  39. O'Neal M.E., Landis D.A., Isaacs R., An inexpensive, accurate method for measuring leaf area and defoliation through digital image analysis, J. Econ. Entomol. 95 (2002) 1190–1194. [CrossRef] [PubMed] [Google Scholar]
  40. Gamiely S., Randle W.M., Mills H.A., Smittle D.A., A rapid and non-destructive method for estimating leaf area of onions. HortSci. 26 (1991) 206. [Google Scholar]
  41. Gutierrez T., Lavin A., Linear measurements for non-destructive estimation of leaf area ‘Chardonnay’ vines, Agric. Tec. 60 (2000) 67–69. [Google Scholar]
  42. Boyuton D., Harris R.W., Relationship between leaf dimensions, leaf, and shoot length in the McIntosh apple, Elberta peach, and Italian prune, Proc. Am. Soc. Hortic. Sci. 55 (1950) 16–20. [Google Scholar]
  43. Kumar K., Srivastava R.P., Singh A.K., Bana D.S., Use of linear measurement in the estimation of leaf area of some apricot, peach, plum, pear and guava varieties, Indian J. Hortic. 34 (1977) 229–234. [Google Scholar]
  44. Demirsoy H., Demirsoy L., Uzun S., Ersoy B., Non-destructive leaf area estimation in peach, Eur. J. Hortic. Sci. 69 (2004) 144–146. [Google Scholar]
  45. Demirsoy H., Demirsoy L., Ozturk A., Improved model for the non-destructive estimation of strawberry leaf area, Fruits 60 (2005) 69–73. [CrossRef] [EDP Sciences] [Google Scholar]
  46. Cittadini E.D., Peri L., Estimation of leaf area in sweet cherry using a non-destructive method, RIA (INTA) 35 (2006) 143–150. [Google Scholar]
  47. Ackley W.B., Crandall P.C., Russell T.S., The use of linear measurements in estimating leaf areas, Proc. Am. Soc. Hortic. Sci. 72 (1958) 326–330. [Google Scholar]
  48. Uzun S., Çelik H., Leaf area prediction models (uzçelik-1) for different horticultural plants, Turk. J. Agric. For. 23 (1999) 645–650. [Google Scholar]
  49. Reynolds S.G.A., A note on estimation of leaf areas of Cacao (Theobroma cacao L.) from three leaf parameters, Trop. Agric. 48 (1971) 177–179. [Google Scholar]
  50. Demirsoy L., Demirsoy H., Leaf area estimation model for some local cherry genotypes in Turkey, Pak. J. Biol. Sci. 6 (2003) 153–156. [CrossRef] [Google Scholar]
  51. Demirsoy H., Demirsoy L., A validated leaf area prediction model for some cherry cultivars in Turkey, Pak. J. Bot. 35 (2003) 361–367. [Google Scholar]
  52. Serdar U., Demirsoy H., Non-destructive leaf area estimation in chestnut, Scientia Hortic. 108 (2006) 227–230. [Google Scholar]
  53. Williams L., Martinson T.E., Non-destructive leaf area estimation of ‘Niagara’ and ‘De Chaunac’ grapevines, Scientia Hortic. 98 (2003) 493–498. [Google Scholar]
  54. Mendoza-De Gyves E., Rouphael Y., Cristofori V., Mira F.R., A non-destructive, simple and accurate model for estimating the individual leaf area of kiwi (Actinidia deliciosa), Fruits 62 (2007) 171–176. [CrossRef] [EDP Sciences] [Google Scholar]
  55. Ranjbar A., Damme P. van, Estimation of leaf area by non–destructive methods in three Iranian pistachio species (Pistacia mutica subsp. cabulica, Pistacia khinjuk subsp. oblonda and Pistacia khinjuk subsp. populifolia), Mededelingen – Fac. Landbouwkd. Toegep. Biol. Wet. Univ. Gent 64 (2) (1999) 49–56. [Google Scholar]
  56. Nesmith D.S., Non-destructive leaf area estimation of rabbiteye blueberries, HortSci. 26 (1991) 132. [Google Scholar]
  57. Mandal K.K., Ghosh S.K., Gayen P., A non-destructive way of leaf area estimation in the strawberry, Ann. Biol. 18 (2002) 19–24. [Google Scholar]
  58. Satpathy B., Shivnath A., Rao K.M., Ghosh P.L., Nair B.P., An easy and rapid method of leaf area estimation in white mulberry (Morus alba), Indian J. Agric. Sci. 62 (1992) 489–491. [Google Scholar]
  59. Celik H., Uzun S., Validation of leaf area estimation models (Uzçelik-1) evaluated for some horticultural plants, Pak. J. Bot. 34 (2002) 41–46. [Google Scholar]
  60. Cristofori V., Rouphael Y., Mendoza-de Gyves E., Bignami, C., A simple model for estimating leaf area of hazelnut from linear measurements, Scientia Hortic. 113 (2007) 221–225. [Google Scholar]