profesores enero 2018b

A B C D E F G H I J K L M N Ñ O P Q R S T U V W X Y Z

Samuel Contreras


TÍTULO Y GRADO ACADÉMICO:

  • Doctor. The Ohio State University. Horticultura.
  • Magister. Pontificia Universidad Católica de Chile. Ciencias de la Agricultura.
  • Ingeniero Agrónomo. Pontificia Universidad Católica de Chile.

PUBLICACIONES DESTACADAS:
  • Guzmán, E., Alcalde, J., Contreras, S., Fernández, M. 2017.A review of the massive Chilean palm Jubaea chilensis. Caldasia 39(2):183-203.
    Disponible
    https://revistas.unal.edu.co/index.php/cal/article/view/68728
  • Rámila, C, Guilleminot, P., Bonilla, C., Pizarro, G., Contreras, S. 2017. Germination requirements of the extremely boron-tolerant species Puccinellia frigida. Seed Science and Technology 45:499-503.https://doi.org/10.15258/sst.2017.45.2.04
  • Jiménez, N., Mares, D., Lizana, C., Contreras, S., Schwember, A. 2017. Susceptibility to pre-harvest sprouting of Chilean and Australian elite cultivars of common wheat (Triticum aestivum L.). Crop Science 57:462-474.
  • Rámila, C., Contreras, S., Di Domenico, C., Molina-Montenegro, M., Vega, A., Handford, M., Bonilla, C., Pizarro, G. 2016. Boron stress response and accumulation potential of the extremely tolerant species Puccinellia frigida. Journal of Hazardous Materials 317:476-484 http://dx.doi.org/10.1016/j.jhazmat.2016.05.086
  • Krarup C., Jacob, C. and S. Contreras. 2016. Pre and Postharvest Attributes of Muskmelon Cultivars for Fresh-cut Cubes. Ciencia e Investigación Agraria 43(1): 39-47.
    Disponible
    http://new.rcia.uc.cl/index.php/rcia/article/view/1549
  • Moreno, B., Jacob, C., Rosales, M., Krarup, K.,Contreras, S. 2016. Yield and Quality of Grafted Watermelon Grown in a Field Naturally Infested with Fusarium Wilt. HortTechnology 26:453-459.
  • Cabrera E, Hepp J, Gómez M, Contreras S. 2015. Seed dormancy of Nolana jaffuelii I.M.Johnst. (Solanaceae) in the coastal Atacama Desert. Flora 214:17‐23. (ISI)
  • Pimentel, I. and S. Contreras. 2014. Red and far red light treatments to modify thermoinhibition, photoblasticity and longevity in lettuce seeds. HortTechnology 24(4): 463-470. (ISI).
  • Contreras, S., M.A. Bennett, and D. Tay. 2009. Temperature during seed development affects weight, germinability, and storability of lettuce seeds. Seed Science and Technology, 37(2): 398-412. (ISI)
  • Contreras, S., M.A. Bennett, D. Tay, J.D. Metzger, and H. Nerson. 2009. Red to far-red ratio during seed development affects lettuce seed germinability and longevity. HortScience, 44(1): 130-134. (ISI)
  • Contreras, S., M.A. Bennett, D. Tay and J. Metzger. 2008. Maternal light environment during seed development affects lettuce seed weight, germinability and storability. HortScience, 43(3):845-852. (ISI)
  • Contreras, S., M.A. Bennett, and D. Tay. 2008. Restricted water availability during lettuce seed production decreases seed yield per plant but increases seed size and water productivity. HortScience, 43(3): 837-844. (ISI)
  • Contreras, S., R. Rabara, M. A. Bennett, D. Tay and M. McDonald. 2008. Acquisition of germination capacity, photosensitivity, and desiccation tolerance in lettuce seeds. Seed Science and Technology, 36(3): 667-678. (ISI).

Capítulos de Libros

  • Contreras, S. y E. Kelly. 2017. Establecimiento del Cultivo. En: Contreras, S. y E. Kelly (Eds.) Manual del Cultivo de Cebolla en la Región de O'Higgins. Proyecto FIC-R IDI 30135556-0. Facultad de Agronomía e Ingeniería Forestal, UC. p. 11-49.
  • Contreras, S., A. Farías and W.M. Nascimento. 2014. Produção de Sementes de Brassica oleracea. In: Nascimento, W. M. (Ed.). Tecnologia de sementes de hortaliças v. 1. Brasília, CNPH/EMBRAPA, p. 45-73.

 

PROYECTOS:

  • 2013-2016. Transferencia Cebolla, innovación para un cultivo sustentable. Fondo de Innovación para la Competividad (FIC - I+D), de la Región de O´Higgins Código 30135556-0.  Investigador Responsable
  • 2010-2013: Pre- and Post-harvest Light-conditioning of Lettuce (Lactuca sativa L.) Seeds: Novel Approach for Vigor Enhancement, Fondecyt. Investigador Responsable.