Accelerated Aging Test to Assess Vigor of Juglans Nigra Seeds

References

• Alizaga, R., D.C. Mello Vera, D.S.B. Dos Santos, and D. Irigon. 1994. Evaluación del vigor en semilla de Phaseolus vulgaris y su relación con la emergencia en el campo (Evaluation of vigor in Phaseolus vulgaris seeds and its relation with field emergence). Agron. Costarric 18(2):227–234.
   Google Scholar
• Alzugaray, C., N. Carnevale, A. Salinas, and R. Pioli. 2005. Observations on quality of Schinopsis balansae Engl. seeds. Seed Technol. 27:49–58.
   Google Scholar
• AOSA (Association of Official Seed Analysts). 2002. Seed vigor testing Handbook. AOSA. Contribution Nº 32. AOSA: Washington, DC, USA.
   Google Scholar
• Ayala-Cordero, G., T. Terraza, L. López-Mata, and C. Trejo. 2004. Variación en el tamaño y peso de la semilla y su relación con la germinación en una población de Stenocereus beneckei (Variation in seed size and weight in a Stenocereus beneckei population and its relationship with germination). Interciencia 29(12):692–697.
   Google Scholar
• Ayala-Garay, O.J., L.L. Pinzón-López, L. Latournerie-Moreno, A.V. Ayala-Garay, and S. Tovar-Carvajal. 2018. Adaptaciones metodológicas para evaluar la calidad fisiológica en semillas de chile habanero (Capsicum chinense Jacq.) (Methodological adaptations to evaluate physiological quality in seeds of habanero pepper). Agroproductividad 9(11):9–14.
   Google Scholar
• Baloch, H.A., A. Di Tommaso, and A.K. Watson. 2001. Intrapopulation variation in Abutilon theophrasti seed mass and its relationship to seed germinability. Seed Sci. Res. 11:333–345.
   Web of Science ®Google Scholar
• Basavarajappa, B.S., H.S. Shetty, and H.S. Prakash. 1991. Membrane deterioration and other biochemical changes associated with accelerated ageing of maize seeds. Seed Sci. Technol 19(2):279–286.
   Web of Science ®Google Scholar
• Baskin, C.C. 1977. Vigor test methods – Accelerated aging. Aosa 51:42–52.
   Google Scholar
• Bewley, J.D., and M. Black. 1994. Seeds: Physiology of development and germination. Plenum Press, New York. p. 445 p.
   Google Scholar
• Bewley, J.D., K.J. Bradford, W.H.M. Hilhorst, and H. Nonogaki. 2013. Seeds. Physiology of development, germination and dormancy. Third ed. Springer, New York. p. 392.
   Google Scholar
• Bonner, F.T., J.A. Vozzo, W.W. Elam, and S.B. Land Jr. 1994. Tree seed technology training course. Instructor´s manual. USDA, Forest Service, New Orleans, Louisiana. p. 160 p.
   Google Scholar
• Brinkman, K.A., L. Juglans, and P. Walnut. 1974. Seeds of woody plants in the United States, p. 454–459. In: C.S. Schopmeyer (ed.). Agriculture Handbook. USDA, Washington, D.C.
   Google Scholar
• Carneiro, J.W.P., and T.A. Guedes. 2002. Dinâmica de ocorrências germinativas em amostras de sementes envelhecidas artificialmente (Dynamics of germination in artificially aged seed samples). Informativo ABRATES 12(1–3):44–51.
   Google Scholar
• Contreras, S., and M. Barros. 2005. Pruebas de vigor en semillas de lechuga y su correlación con emergencia (Vigor tests in lettuce seeds and their correlation with emergence). Rev. Cien. Inv. Agr 32(1):3–11. doi: 10.7764/rcia.v32i1.301.
   Google Scholar
• Delouche, J.C. 2002. Germinación, deterioro y vigor de semillas (Seed germination, deterioration and vigor). Seed News 6(6). 03 May 2013. http://www.seednews.inf.br/espanhol/seed66/artigocapa66a_esp.shtml.
   Google Scholar
• Delouche, J.C., and C.C. Baskin. 1973. Accelerated ageing techniques for predicting the relative storability of seed lots. Seed. Sci. Technol. 1:427–452.
   Google Scholar
• Delouche, J.C., and W.P. Caldwell. 1962. Seed vigor and vigor tests. Proceedings of the Association of Official Seed Analysts, 50:136-140.
   Google Scholar
• Di Rienzo, J.A., F. Casanoves, M.G. Balzarini, L. Gonzalez, M. Tablada, and C.W. Robledo. 2008. InfoStat, versión 2008, Grupo InfoStat, FCA. Universidad Nacional de Córdoba, Argentina.
   Google Scholar
• Dutra, A.S., and V.D. Vieira. 2006. Accelerated aging test to evaluate seed vigor in pumpkin and zucchini seeds. Seed Sci. Technol. 34:209–214. doi: 10.15258/sst.2006.34.1.24.
   Web of Science ®Google Scholar
• Edmond, J.B., and W.J. Drapala. 1958. The effect of temperature, sand and soil, and acetone on germination of okra seed. Proc. Amer. Soc. Hort. Sci. 71:728–734.
   Google Scholar
• Ellis, R.H., T.D. Hong, and E.H. Roberts. 1985. Handbook of seed technology for genebanks. Vol. II. Juglandaceae. IBPGR, Rome, Italy.
   Google Scholar
• FAO. 1991. Planning seed collection, p. 33–63. In: R.L. Willan (ed.). A guide to forest seed handling. FAO For. Paper 20/2, Rome.
   Google Scholar
• Flores, P.C., D. Poggi, S.M. García, M. Catraro, and N.F. Gariglio. 2017. Ruptura de la dormición y exigencias de luz para la germinación de semillas de Juglans nigra (Dormancy breakup and light requirements of Juglans nigra seeds). FAVE Sección Ciencias Agrarias 16(2):33–46. ISSN: 2346-9129. doi: 10.14409/fa.v16i2.7018.
   Google Scholar
• Flores, P.C., D. Poggi, S.M. García, M. Catraro, and N.F. Gariglio. 2018. Descripción de patrones normales y anormales de plántulas de Juglans nigra (Description of normal and abnormal seedling patterns of Juglans nigra). FAVE Sección Ciencias Agrarias 17(2):23–37. ISSN: 2346-9129.
   Google Scholar
• Flores, P.C., D. Poggi, S.M. García, and N.F. Gariglio. 2011. Topographic tetrazolium testing of black walnut (Juglans nigra) seeds. Seed Sci. Technol. 39:230–235. doi: 10.15258/sst.2011.39.1.23.
   Web of Science ®Google Scholar
• Flores, P.C., D. Poggi, S.M. García, and N.F. Gariglio. 2013. Fruit pulp of Juglans nigra affects seed germination and root growth. Seed Technol. 35(1):41–53. ISSN 1096-0724.
   Google Scholar
• Hammons, B.K. 1998. World Consumption and Production Trends. Published by International Nut Council. Hammons Products Company: Stockton, Missouri. p. 25–28.
   Google Scholar
• Hampton, J.G., B.J. Brunton, G.M. Pemberton, and J.S. Rowarth. 2004. Temperature and time variables for accelerated ageing vigour testing of pea (Pisum sativum L.) seed. Seed Sci. Technol 32(1):261–264. doi: 10.15258/sst.
   Web of Science ®Google Scholar
• Herrera, J. 1987. Efecto de la gravedad específica de la semilla sobre el desarrollo y la producción de arroz cv. CR1113 (Effect of seed specific gravity on the development and production of rice cv. CR1113). Agron. Costarric 11(2):453–461.
   Google Scholar
• International Seed Testing Association, 1995. Handbook of vigour test methods. 3rd edition. Eds. Hampton J. G. and D.M. Tekrony Chairperson and Deputy Chairperson, Vigour Test Comitte. Zurich. p. 117.
   Google Scholar
• ISTA (International Seed Testing Association). 2003. International rules for seed testing. ISTA,  Zurich. p. 333.
   Google Scholar
• Kotowiski, F. 1926. Temperature relations to germination of vegetable seed. Amer. Soc. Hort. Sci. Proc. 23:176–184.
   Google Scholar
• Li, A., J. Herrera, and R. Barboza. 1996. Efecto del envejecimiento acelerado sobre la germinación y el vigor de la semilla de China sultani (Impatiens wallerana) en almácigo (Effect of accelerated aging on germination and vigor of Impatiens wallerana seeds planted in a seedbed). Agron. Costarric 20(2):173–180.
   Google Scholar
• Marcos Filho, J., A.D. Novembre, and H.M. Chamma. 2001. Testes de envelhecimiento acelerado e de deterioraçâo controlada para avaliaçâo do vigor de sementes de soja (Accelerated aging and controlled deterioration tests to evaluate soybean seed vigor). Sci. Agric. 58:421–426. doi: 10.1590/S0103-90162001000200029.
   Google Scholar
• Marcos Filho, J., A.L. Pereira Kikuti, and L. Baptista de Lima. 2009. Métodos para avaliação do vigor de sementes de soja, incluindo a análise computadorizada de imagens (Methods for assessing soybean seed vigor, including computerized image analysis). Rev. Bras. Sementes 31(1):102–112. doi: 10.1590/S0101-31222009000100012.
   Google Scholar
• Popinigis, F. 1985. Fisiologia das sementes (Seed physiology). Ministério de Agricultura-AGIPLAN, Brasília. p. 289.
   Google Scholar
• Reid, W., M. Coggeshall, H. E. Garrett, J. Van Sambeek. 2009. Growing black Walnut for Nut production. Agroforestry in Action. Columbia, MO: University of Missouri Center for Agroforestry. p. 16.
   Google Scholar
• Rodo, A.B., and J. Marcos Filho. 2003. Accelerated aging and controlled deterioration for thedetermination of the physiological potential of onion seeds. Sci. Agric. 60(3):465–469. doi: 10.1590/S0103-90162003000300008.
   Google Scholar
• Romano, A., I. Teves, N. Torres, and L. Cazón. 2008. Variaciones en la calidad de semillas de poroto (Phaseolus vulgaris L.) por efectos del daño mecánico y su influencia en el vigor de las plántulas (Variations in quality of bean seeds (Phaseolus vulgaris L.) due to mechanical damage and their influence on seedling vigor). Idesia 26(2):83–87.
   Google Scholar
• Salinas, A.R., A.M. Yoldjian, M.L. Dietrich, R.M. Craviotto, and V. Bisaro. 2001. Pruebas de vigor y calidad fisiológica de semillas de soja (Vigor tests and physiological quality of soybean seeds). Pesqui. Agropecu. Bras 36(2):371–379. doi: 10.1590/S0100-204X2001000200022.
   Google Scholar
• Tekrony, D.M. 1995. Accelerated ageing, p. 816–822.In: Congress of the international seed testing association, Copenhagen. Seed vigour testing: Contributions to a seminar. International Seed Testing Association, Zurich.
   Google Scholar
• TeKrony, D.M. 2005. Accelerated aging test: Principles and procedures. Seed Technol. 27(1):135–146.
   Google Scholar
• TeKrony, D.M., D.B. Egli, and D.A. Wickham. 1989. Corn seed vigour effect on no tillage field performance. Crop Sci. 29:1523–1528. doi: 10.2135/cropsci1989.0011183X002900060042x.
   Web of Science ®Google Scholar
• Woodworth, R.H. 1930. Meiosis of microsporogenesis in the Juglandaceae. Am. J. Bot. 17(9):863–869. doi: 10.1002/j.1537-2197.1930.tb04927.x.
   Google Scholar