Production Practices and Quality Assessment of Food Crops. Vol. 1

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Saffron Quality 255 Escribano, J., M. Diaz-Guerra, H. H. Riese, J. Ontanon, D. Garcia-Olmo, D. C. Garcia-Olmo, A. Rudio and J. A. Fernández (1999a). In vitro activation of macrophages by a novel proteoglucan isolated from corms of Crocus sativus L. Cancer Letters 144: 107–114. Escribano, J., A. Piqueras, J. Medina, A. Rubio, M. Alvarez-Orti and J. A. Fernández (1999b). Production of a cytotoxic proteoglucan using callus culture of saffron corms (Crocus sativus L.). Journal of Biotechnology 73: 53–59. Escribano, J., I. Rios and J. A. Fernández (1999c). Isolation and cytotoxic properties of a novel glycoconjugate from corms of saffron plant. Biochimica et Biophysica Acta 1426: 217–222. Escribano, J., M. Díaz-Guerra, H. H. Riese, A. Alvarez, R. Proenza and J. A. Fernández (2000a). The cytolytic effect of a glycoconjugate extracted from corms of saffron plant on human cell lines in culture. Planta Medica. 66: 157–162. Escribano, J., A. Rubio, M. Alvarez-Orti, A. Molina and J. A. Fernández (2000b). Purification and characterisation of a mannnan binding lectin specifically expressed in corms of saffron plant (Crocus Sativus L.). Journal of Agricultural and Food Chemistry 48: 457–463. FAO Food and Nutrition Paper (1986). Manuals of food quality control. Food analysis: Quality, adulteration, and tests of identity. FAO, Rome, pp. 249–251. Fellows, P., B. Axtell and M. Dillon (1995). Quality assurance for small-scale rural food industries. Rome, FAO Agricultural Services Bulletin 117: 70–81. Fakhrai, F. and P. K. Evans (1990). Morphogenic potential of cultured floral explants of Crocus sativus L. for the in vitro production of saffron. Journal of Experimental Botany 41: 47–52. Farkas, J. (1998). Irradiation as a method for decontaminating food. A review. International Journal of Food Microbiology 44: 189–204. Farooq, S. and K. K. Kaul (Chemical Abstracts, 1983, 99: 85262d). Changes in gibberellin-like activity in corms of saffron plant (Crocus sativus L.) during dormancy and sprouting. Biochem. Physiol. Pflanz. 178: 685–689. Galigani, F. P. and F. G. Pegna (1999). Mechanised saffron cultivation, including harvesting. In M. Negbi (ed.), Saffron: Crocus sativus L. Harwood Academic Publications, Amsterdam, The Netherlands, pp. 115–126. Gao, W., Y. Li and D. Zhu (1999). Phenolic glucosides and γ-lactone glucoside from the sprouts of Crocus sativus L. Planta Medica 65: 425–427. Garcia, E. (1997). Salivating for saffron. Scientific American 19–20. Garcia-Olmo, D. C., H. H. Riese, J. Escribano, J. Ontanon, J. A. Fernandez, M. Atienzar and D. Garcia-Olmo (1999). Effects of long term treatment of colon adenocarcinoma with crocin, a carotenoid from saffron: An experimental study in the rat. Nutrition and Cancer 35: 120–126. Garrido, J. L., C. Diez de Bethencourt and E. Revilla (Chemical Abstracts, 1987, 107: 216326m). Flavonoid composition of hydrolyzed tepal extracts of Crocus sativus L. Annales de Bromatologia 39: 69–80. Ghorpade, V. M., S. S. Deshpande and D. K. Salunkhe (1995). Food colours. In J. A. Maga and T. A. Tu (eds.), Food Additive Toxicology. Marcel Dekker, Inc., New York, USA, pp. 179–233. Ghosal, S., S. K. Singh and S. K. Battacharrya (1989). Mangicrocin, an adaptogenic xanthone-carotenoid glycosidic conjugate from saffron. Journal of Chemical Research 5: 70–71. Goliaris, A. H. (1999). Saffron cultivation in Greece. In M. Negbi (ed.), Saffron: Crocus sativus L. Harwood Academic Publications, Amsterdam, The Netherlands, pp. 73–85. Gomez, R., R. Varon, M. Garcia, M. Vazquez and G. Alonso (1987a). Estudio del azafrán (Crocus sativus L.) en la provincia de albacete. I. produccion. Anales De Biologia 13: 63–70. Gomez, R., R. Varon, M. Garcia, M. Vazquez and G. Alonso (1987b). Estudio del azafrán (Crocus sativus L.) en la provincia de albacete.II.color. Anales De Biologia 13: 71–75. Green, C. L. (1995). Non-Wood forest products In: Natural colorants and dyestuffs. Vol. 4. Food and Agriculture Organisation of the United Nations, Rome, pp. 80–85. Grilli-Caiola, M. (1999). Reproduction biology of saffron and its allies. In M. Negbi (ed.), Saffron: Crocus sativus L. Harwood Academic Publications, Amsterdam, The Netherlands, pp. 31–44. Harborne, J. B. and C. A. Williams (1984). 6-Hydroxyflavones and other flavonoids of Crocus. Zeitschrift fuerNaturforschung 39: 18–23. Himeno, H. and K. Sano (1987). Synthesis of crocin, picrocrocin and safranal by saffron stigma-like structures proliferated in vitro. Agricultural and Biological Chemistry 51: 2395–2400.
256 S. A. Ordoudi and M. Z. Tsimidou Iborra, J., R. Castellar, M. Canovas and A. Manjon (1992a). TLC preparative purification of Picrocrocin, HTCC and Crocin from Saffron. Journal of Food Science 57: 714–731. Iborra, J., R. Castellar, M. Canovas and A. Manjon (1992b). Picrocrocin hydrolysis by immobilised β-glucosidase. Biotechnology Letters 14: 475–480. Iborra, J., R. Castellar, M. Canovas and A. Manjon (FSTA, 1993, 11: B 130).). Analysis of a packedbed reactor for hydrolysis of picrocrocin by immobilised β-glucosidase. Enzyme and Microbial Technology 15: 780–784. Ilahi, I., M. Jabeen and N. Firdous (1987). Morphogenesis with saffron tissue culture. Journal of Plant Physiology 128: 227–232. Isa, T. and T. Ogasawara (Chemical Abstract, 1991, 116: 38030m). Comparison of the amino acid content and phenylalanine ammonia-lyase activity between pigment producing and nonproducing cultured saffron cells. Shokubutsu Soshiki Baiyo 8: 127–128. Isa, T., T. Ogasawara and H. Kaneko (Chemical Abstracts, 1990, 113: 169116e). Regeneration of saffron protoplasts immobilised in calcium alginate beads. Ikushugaku Zasshi 40: 153–157. ISO 3632-1-1993, Saffron (Crocus sativus Linneaus) Part 1: Specifications. International Organisation for Standardization, Geneva. ISO 3632-2-1993, Saffron (Crocus sativus Linneaus) Part 2: Test methods. International Organisation for Standardization, Geneva. Kabdal, P. B. and P. Joshi (Chemical Abstracts, 1978, 90: 67594y). Effect of 2, 4-dichlorophenoxy acetic acid (2, 4-D) on development and corm formation in Crocus sativus Linneaus. Indian Journal of Pharm. Science 40: 165–166. Kamikura, M. and K. Nakazato (Chemical Abstracts, 1985, 105: 75885n). Comparison of natural yellow colours extracted from saffron, Crocus sativus, and gardenia fruit, Gardenia jasminoides. Eisei Shikensho Hokoku 103: 157–160. Keith, W. D., L. J. Harris, L. Hundson and M. W. Griffiths (1997). Pulsed electric fields as a processing alternative for microbial reduction in spice. Food Research International 30: 185–191. Knewstubb, C. J. and B. S. Henry (1988). Natural Colours – A challenge and an opportunity. Sterling Publications Ltd, Food Technology International, England, pp. 179–186. Koyama, A., Y. Ohmori, N. Fujioka, H. Miyagawa, K. Yamasaki and H. Kohda (1988). Formation of stigma-like structures and pigment in cultured tissues of Crocus sativus. Planta Medica:375–376. Kubo, I. and I. Kinst-Hori (1999). Flavonols from saffron flower: tyrosinase inhibitory activity and inhibition mechanism. Journal of Agricultural and Food Chemistry 47: 4121–4125. Kuhn, R. and A. Winterstein (1934). Uber die Konstitution des Picro-crocins und seine Beziehung zu den Carotin-farbstoffen des Safrans. Berliner Deutsche Chemische Gesellschaft 67: 344–357. Kumar, H. D. and W. Nultsch (Chemical Abstracts, 1985, 103: 51077h). Effects of saffron extract and catotenoid preparations on the photodynamically induced chemotactic response of Polytomella magna. Photobiochemistry and Photophysics 9: 39–42. Legnani, P. P., E. Leoni, F. Righi and L. A. Zarabini (2001). Effect of microwave heating and gamma irradiation on microbiological quality of spices and herbs. Italian Journal of Food Science 13: 337–345. Li, N., G. Lin, Y. W. Kwan and Z. D. Min (1999). Simultaneous quantification of five major biologically active ingredients of saffron by high-performance liquid chromatography. Journal of Chromatography A 849: 349–355. Liakopoulou-Kyriakides, M., Z. Sinakos and D. A. Kyriakidis (1985). A high molecular platelet aggregating factor in Crocus sativus. Plant Science 40: 117–120. Liakopoulou-Kyriakides, M. and A. Skubas (1990). Characterisation of the platelet aggregation inducer and inhibitor isolated from Crocus sativus. Biochemistry International 22: 103–110. Loskutov, A. V., C. W. Beninger, G. L. Hosfield and K. C. Sink (2000). Development of an improved procedure for extraction and quantitation of safranal in stigmas of Crocus sativus L. using high performance liquid chromatography. Food Chemistry 69: 87–95. Loukis, A., A. Al-Kofahi and S. Philianos (Chemical Abstracts, 1983, 100: 188770m). Constituents of Crocus sativus L. bulbs. Plantes Medicinales et Phytotherapie 17: 89–91. Lowell, G. (1964). Saffron adulteration. Journal of the A.O.A.C. 47:538. Lozano, P., D. Delgado, D. Gomez, M. Rubio and J. L. Iborra (2000). A non-destructive method to determine the safranal content of saffron (Crocus Sativus L.) by supercritical carbon dioxide extrac-
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Production Practices and Quality As
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Production Practices and Quality As
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CONTENTS Preface List of Authors Ef
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PREFACE Today, in a world with abun
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LIST OF AUTHORS Rufaro M. Madakadze
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EFFECT OF PREHARVEST FACTORS ON THE
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2.1. Temperature Effect of Preharve
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e beneficial to the water economy a
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Other responses that can also be ca
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06. Failure of fruits to ripen in t
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of more than 13 hours of night temp
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temperatures. Some show serious int
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Effect of Preharvest Factors 15 bet
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1) High rainfall conditions where B
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increase in the release of P i from
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however, more severe when foliage i
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temperatures and luxuriant growth a
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development of chilling injury symp
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conditions followed by sudden high
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season. The main environmental fact
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4.4.5.2. Water blisters Storage roo
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Effect of Preharvest Factors 33 REF
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Effect of Preharvest Factors 35 men
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EFFECTS OF AGRONOMIC PRACTICES AND
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Effects of Agronomic Practices 39 F
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Effects of Agronomic Practices 41 6
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Effects of Agronomic Practices 43 F
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Effects of Agronomic Practices 45 R
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MODELLING FRUIT QUALITY: ECOPHYSIOL
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Modelling Fruit Quality 49 the dens
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Is it the only level to be consider
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To calculate the hydrostatic pressu
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on an analysis of the biophysical p
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Modelling Fruit Quality 57 fructose
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Modelling Fruit Quality 59 Figure 4
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f(dd) = dd max - dd dd max - dd min
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which depends on climate and irriga
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distributed over the period during
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Modelling Fruit Quality 73 Pruning
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with Fo, Pe and Pr being local ‘d
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Modelling Fruit Quality 77 than in
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Modelling Fruit Quality 79 Dann, I.
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Modelling Fruit Quality 81 Huguet,
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SPRAY TECHNOLOGY IN PERENNIAL TREE
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Spray Technology in Perennial Tree
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With centrifugal energy systems dro
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fruit orchards is described as 1000
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According to Furness (2000), the nu
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sprayers which were developed prima
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air-blast sprayers in an attempt to
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Most agricultural chemicals have be
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educing dosage rates to one quarter
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CHESTNUT, AN ANCIENT CROP WITH FUTU
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2. WORLD AREA OF CHESTNUT AND PRODU
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Table 2. Chestnut production in the
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vineyards and north facing to chest
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Chestnut, an Ancient Crop with Futu
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Table 5. Continued. Chestnut, an An
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Table 6. Continued. Chestnut, an An
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size. When the trees develop too mu
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6.5. Management of old orchards Che
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the disease is already established
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where ink disease is rampant, disea
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8.4. Micropropagation Several in vi
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9.3. Hybrids Chestnut breeding in E
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IMPROVEMENT OF GRAIN LEGUME PRODUCT
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Improvement of Grain Legume Product
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2.8. Field experiments The greenhou
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IMPACT OF OZONE ON CROPS S. DEL VAL
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Impact of Ozone on Crops 191 observ
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Impact of Ozone on Crops 193 1996).
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Impact of Ozone on Crops 195 Figure
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Impact of Ozone on Crops 197 al., 1
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Impact of Ozone on Crops 199 techni
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species show a progressive decline
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Impact of Ozone on Crops 203 Chaime
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Page 220 and 221: SAFFRON QUALITY: EFFECT OF AGRICULT
Page 222 and 223: 1.2. Commercial interest Saffron Qu
Page 224 and 225: 1.3. Uses Saffron Quality 213 There
Page 226 and 227: oriental-type perfumes (Sampathu et
Page 228 and 229: Saffron Quality 217 Figure 5. Chemi
Page 230 and 231: Straubinger et al., 1997; Straubing
Page 232 and 233: and Micheli, 1979; Curro et al., 19
Page 234 and 235: Saffron Quality 223 Figure 9. Chemi
Page 236 and 237: (1984) gives the following data: δ
Page 238 and 239: Saffron Quality 227 Table 3. HPLC a
Page 240 and 241: Saffron Quality 229 464/2001, OJ L6
Page 242 and 243: Saffron Quality 231 Saffron in fila
Page 244 and 245: Saffron Quality 233 sium were the q
Page 246 and 247: Saffron Quality 235 Figure 11. The
Page 248 and 249: Saffron Quality 237 Figure 12. Harv
Page 250 and 251: Morocco. Ait-Oubahou and El-Otmani
Page 252 and 253: and Micheli, 1979a; Sampathu et al.
Page 254 and 255: Saffron Quality 243 Table 8. Drying
Page 256 and 257: Saffron Quality 245 space for sorti
Page 258 and 259: unpleasant sensory characteristics
Page 260 and 261: Saffron Quality 249 The effect of
Page 262 and 263: Saffron Quality 251 Table 10. Effec
Page 264 and 265: Saffron Quality 253 Alonso, G. L.,
Page 268 and 269: Saffron Quality 257 tion combined w
Page 270 and 271: Saffron Quality 259 Selim, K., M. T
Page 272 and 273: FRUIT AND VEGETABLES HARVESTING SYS
Page 274 and 275: 3. PRINCIPLES AND DEVICES FOR THE D
Page 276 and 277: exert a vertical pulling force to t
Page 278 and 279: Fruit and Vegetables Harvesting Sys
Page 282 and 283: - fingers or spikes; - oscillatory
Page 284 and 285: - frequency and - amplitude of vibr
Page 290 and 291: To calculate the number of directio
Page 292 and 293: For the cleaning and separation of
Page 296: Fruit and Vegetables Harvesting Sys
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