'More Crop Per Drop' Drought Strategy Touted

Feb 25, 2015

Corn silage producers can get 'more crop per drop" with deficit irrigation, however productivity will decline, reported Dennis Pollock in Western Farm Press. Pollack based the story on a seminar at the World Ag Expo earlier this month presented by Mark Lundy, UC Agriculture and Natural Resources Cooperative Extension advisor for Colusa, Sutter and Yuba counties.

Lundy said there are certain times in the crop's development that farmers will not want to stress the corn silage - when tassels and silk are forming. At other times in its development, even if the corn is stressed, the application of more water does not bring a proportionate increase in yield.

The UC ANR advisor suggested farmers choose planting dates, varieties and cultural practices that will maximize irrigation efficiency.

“Look at what you choose to grow and perhaps plant later with a short variety or drought tolerant variety,” he said. “And get weeds under control. They take up water.”

UC ANR advisor offered advice at World Ag Expo for efficient corn silage farming.

Source: ucanr.edu

Video: Finding a Balance of Innovation and Regulation - Dr. Peter Facchini

Regulations help markets and industry exist on level playing fields, keeping consumers safe and innovation from going too far. However, incredibly strict regulations can stunt innovation and cause entire industries to wither away. Dr. Peter James Facchini brings his perspective on how existing regulations have slowed the advancement of medical developments within Canada. Given the international concern of opium poppy’s illicit potential, Health Canada must abide by this global policy. But with modern technology pushing the development of many pharmaceuticals to being grown via fermentation, is it time to reconsider the rules?

Dr. Peter James Facchini leads research into the metabolic biochemistry in opium poppy at the University of Calgary. For more than 30 years, his work has contributed to the increased availability of benzylisoquinoline alkaloid biosynthetic genes to assist in the creation of morphine for pharmaceutical use. Dr. Facchini completed his B.Sc. and Ph.D. in Biological Sciences at the University of Toronto before completing Postdoctoral Fellowships in Biochemistry at the University of Kentucky in 1992 & Université de Montréal in 1995.