DIGITALNA ARHIVA ŠUMARSKOG LISTA
prilagođeno pretraživanje po punom tekstu




ŠUMARSKI LIST 11-12/2012 str. 34     <-- 34 -->        PDF

Goulao, L., T. Valdiviesso, C. Santana, C. Moniz Oliveira, 2001: Comparison between phenetic characterization using RAPD and ISSR markers and phenotypic data of cultivated chestnut (Castanea sativa Mill.). Genetic Resources and Crop Evolution 48: 329–338.
Hennion, B., 2009: France. U: D. Avanzato (ur.), Following chestnut footprints (Castanea spp.) – Cultivation and culture, folklore and history, traditions and use. Scripta Hortic. 9: 44–47.
Idžojtić, M., J. Medak, I. Poljak, M. Zebec, B. Tutić, 2010a: Slijedeći tragove pitomog kestena (Castanea spp.). Uzgoj i kultura, folklor i povijest, tradicija i korištenje. Šum. list 5–6: 294–300.
Idžojtić, M., M. Zebec, I. Poljak, Z. Liber, Z. Šatović, N. Vahčić, 2010b: Očuvanje genofonda maruna. U: N. Jasprica i dr. (ur.), Treći Hrvatski botanički kongres 2010., 24–26 rujan 2010., Murter. Knjiga sažetaka, 92–93.
Liber, Z., M. Idžojtić, M. Zebec, Z. Šatović, I. Poljak, 2009: Genetic characterization of sweet chestnut cultivars in Croatia. U: Castanea 2009, 1st European Congress on Chestnut, Cuneo (Italy), 13–16 October 2009, Abstract book, 130 str.
Liu, J., 2002: POWERMARKER – a Powerful Software for Marker Data Analysis. North Carolina State University, Bioinformatics Research Center, Raleigh. http://www.powermarker.net
Marinoni, D., A. Akkak, G. Bounous, K. J. Edwards, R. Botta, 2003: Development and characterization of microsatellite markers in Castanea sativa Mill. Mol. Breed. 11: 127–136.
Martin, A. C., M. J. Gimenez, J. B. Alvarez, 2005: Varietal identification of chestnut using microsatellites markers. Acta Hortic. 693: 441–446.
Martin, M. A., A. Moral, L. M. Martin, J. B. Alvarez, 2007: The genetic resources of European sweet chestnut (Castanea sativa Miller) in Andalusia, Spain. Genetic Resources and Crop Evolution 54: 379–387.
Martin, M. A., C. Mattioni, M. Cherubini, D. Taurchini, F. Villani, 2010: Genetic characterization of traditional chestnut varieties in Italy using microsatellites (simple sequence repeats). Annals of Applied Biology 157 (1): 37–44.
Matošević, D., M. Pernek, B. Hrašovec, 2010: Prvi nalaz kestenove ose šiškarice (Dryocosmus kuriphilus) u Hrvatskoj. Šum. list 9–10: 497–502.
Medak, J., M. Idžojtić, S. Novak-Agbaba, M. Ćurković-Perica, I. Mujić, I. Poljak, D. Juretić, Ž. Prgomet, 2009: Croatia. U: D. Avanzato (ur.), Following chestnut footprints (Castanea spp.) – Cultivation and culture, folklore and history, traditions and use. Script. Hortic. 9: 40–43.
Minch, E., 1997: MICROSAT, Version 1.5b. Stanford University Medical Center, Stanford.
Müller-Starck, G., M. Conedera, S. Fineschi, 1994: Genetic characterization of cultivated varieties of European chestnut (Castanea sativa Mill.) in Southern Switzerland. II. Genetic inventory based on enzyme gene markers. U: E. Antognozzi (ur.), Procedings of the International Congress on Chestnut, 20–23 October 1993, Spoleto, Italy, 303–307.
Oraguzie, N. C., D. L. McNeil, A. M. Paterson, H. Chapman, 1998: Comparison of RAPD and morpho-nut markers for revealing genetic relationships between chestnut species (Castanea spp.) and New Zealand chestnut selections. New Zeal. J. Crop Hort. Sci. 26: 109–115.
Pereira, M. J., L. F. Castro, J. M. Torres-Pereira, S. P. Lorenzo, 1999: Isozyme polymorphism in Portugese chestnut cultivars. Acta Hortic. 494: 283–286.
Pereira-Lorenzo, S., J. Fernandez-Lopez, J. Moreno-Gonzalez, 1996a: Variability and grouping of Northwestern Spanish chestnut cultivars. I. Morphological traits. J. Am. Soc. Hort. Sci. 121 (2): 183–189.
Pereira-Lorenzo, S., J. Fernandez-Lopez, J. Moreno-Gonzalez, 1996b: Variability and grouping of Northwestern Spanish chestnut cultivars. II. Isoenzymatic traits. J. Am. Soc. Hort. Sci. 121 (2): 190–197.
Pereira-Lorenzo, S., J. Fernandez-Lopez, 1997: Description of 80 cultivars and 36 clonal selections of chestnut (Castanea sativa Mill.) from Northwestern Spain. Fruit Varieties Journal 51 (1): 13–27.
Pereira-Lorenzo, S., A. M. Ramos-Cabrer, B. Diaz-Hernandez, J. Ascasibar-Errasti, F. Sau, M. Ciordia-Ara, 2001: Spanish chestnut cultivars. Hortic. Sci. 36 (2): 344–347.
Piccioli, L., 1922: Monografia del castagno. Suoi caratteri morfologici, variegata, coltovazione, prodotti e nemici. Stabilimento Tipo-Litografico G. Spinelli, Florenz, 178 str.
Ramos-Cabrer, A. M., S. Pereira-Lorenzo, 2005: Genetic relationship between Castanea sativa Mill. trees from north-western to south Spain based on morphological traits and isoenzymes. Genetic Resources and Crop Evolution 52: 879–890.
Rudow, A., M. Conedera, 2001: Floral characteristics and recognition of cultivars of sweet chestnut (Castanea sativa Mill.) in Southern Switzerland. Bot. Helv. 111 (1): 1–23.
Santana, C., T. Valdiviesso, C. M. Oliveira, 1999: Molecular typing of rootstock hybrids (Castanea sativa × Castanea crenata) and Portugese Castanea sativa cultivars based on RAPD markers. Acta Hortic. 494: 295–301.
Saitou, N. i M. Nei, 1987: The neighbor-joining method: a newmethod for reconstruction of phylogenetic trees. Mol. Biol. Evol. 4:406–25.
Sanz-Cortés, F., D. E. Parfitt, C. Romero, D. Struss, G. Llácer, M. L. Badenes, 2003: Intraspecific olive diversity assessed with AFLP. Plant Breeding 122: 173–177.
Sawano, M., T. Ichii, T. Nakanishi, Z. Kotera, 1984: Studies on identification of chestnut species and varieties by isozyme analysis. Sci. Rpt. Faculty Agr. Kobe Univ. 16:67–71.
Wünsch, A., J. I. Hormaza, 2002: Cultivar identification and genetic fingerprinting of temperate fruit tree species using DNA markers. Euphytica 125: 59–67.