Camelina Agronomics

High resolution imaging to assess oilseed species’ root hair responses to soil water stress – W. A. Hammac, W. L. Pan, R. P. Bolton, and R. T. Koenig – Plant Soil – 2011

Summary: An imaging method was developed to evaluate crop species differences in root hair morphology using high resolution scanners, and to determine if the method could also detect root hair responses to soil water availability. This novel approach to in situ rhizosphere imaging should be useful in future studies of rhizosphere interactions and crop water and nutrient management. Link: http://link.springer.com/article/10.1007%2Fs11104-010-0335-0#page-1
by David Roberts on June 13, 2014

The temperature response of CO2 assimilation, photochemical activities and Rubisco activation in Camelina sativa, a potential bioenergy crop with limited capacity for acclimation to heat stress – A. E. Carmo-Silva and M. E. Salvucci – Planta – 2012

Summary: Temperature response and the potential for heat acclimation were evaluated for Camelina sativa. Moderate heat stress caused a reduction in camelina seed yield. The fact that photosynthesis exhibited no acclimation to moderate heat stress will likely impact the development of camelina and other cool season Brassicaceae as sources of bioenergy in a warmer world. Link: http://www.readcube.com/articles/10.1007/s00425-012-1691-1
by David Roberts on June 13, 2014

Comparative growth of spring-planted canola, brown mustard and camelina – A.D. Pavlista, D.D. Baltensperger, T.A. Isbell, and G.W. Hergert – Industrial Crops and Products – 2012

Summary: With increased emphasis for diesel substitution, production of brown mustard, canola and camelina used as biodiesels may increase in the USA High Plains. The aim of this study was to elucidate the growth pattern of these crops when spring-planted (2005-2007) in western Nebraska. Fatty acid composition was dramatically different between the crops as previously reported. The growth patterns of ...
by David Roberts on June 13, 2014

Weed suppression in mixed cropped grain peas and false flax (Camelina sativa) – H. Saucke and K. Ackermann – Weed Research – 2006

Summary: Mixed cropping peas with false flax, a brassica oil seed crop, in additive arrangements had a significant suppressive effect on weed coverage. Weed suppression was probably achieved by a mutually enhanced competitiveness of both crop components, indicating a mechanism based on resource allocation, but further research is needed for a better understanding of weed suppressive traits in pea–false flax ...
by David Roberts on June 13, 2014

Developing an Efficient Cover Cropping System for Organically Grown Barley – L. Raslavičius and V. Povilaitis – Journal of Crop Improvement – 2013

Summary: Spring barley is the most widely grown cereal in Lithuania. One of several organic solutions to the problem of spreading weeds lies in growing Camelina sativa as cover crop between the barley plantings. A series of experiments confirmed that camelina could effectively limit the prevalence of weeds under certain soil properties and weather conditions. Drilling camelina in strips between ...
by David Roberts on June 13, 2014

Enhancing GHG balances in organic farms by integration of new bio-energy crop concepts – H.M. Paulsen – Conference Proceedings Organic agriculture and climate change – France, 2008

Summary: Mixed cropping with oil crops and the integration of hedges offer chances to increase land use efficiency, decrease GHG emissions and maintain food production. Link: http://orgprints.org/17119/1/11_Paulsen.pdf
by David Roberts on June 13, 2014
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