Sidra Sarwer, Green Blogger
Bruno Basso, Professor in the College of Natural Science at Michigan university and John Antle, Professor of Applied Economics at Oregon state university believe the path begins with digital agriculture – or the integration of big data into crop and farmland usage. 
Technologies like genetic modification and crop production automation help produce more food than we need to survive. And while the modern food system is a monument to human ingenuity and innovation, it is not without problems. 
"Agriculture's contributions to green house gas emissions, water pollution and biodiversity loss show that major agricultural systems are on a largely unsustainable trajectory, Basso says. "And as the population increases, energy demands and pollution will scale accordingly." 
Basso says that while policymakers,farmers and environmental groups are all speaking they are not necessarily listening. There are too many barriers and too many competing interests. Basso says,, ” We need to bring people to the table and design a system that works for everyone – farmers, lawmakers,society and future generations.” 
To meet this challenge, the researchers proposed a two-steps process. The initial step focuses on the design of a sustainable framework -- with goals and objectives -- guided and quantified by digital agriculture technologies Implementation the second step involves increased public- private investment in technologies like digital agriculture and a focus on applicable effective policy. This study links advancements in agronomic sciences to the critical role policymakers must play in implementation and setting the agenda for sustainabilty in agriculture. 
It does no good to design a policy that the farmer will ignore. Policymakers must make use of digital agriculture to help drive policy. Go to the farmers and assure them to help and in making the transitions and will also help them to transform their poorly preforming and unstable field areas with financial support.
He recommends targeted tax incentives and subsidies to support farmers working toward a more sustainable system.  If the objective is to increase biodiversity to reduce nitrogen fertilizer use or to grow less resource-intensive bioenergy perennials incentivization is key.The researchers analysis showed that if nitrogen fertilizer applications were based on demand and yield stability instead of uniform application usage in the Midwest could be reduced by 36%with significant reductions in groundwater contamination and carbon dioxide emissions. We need to make these decisions as a society and to brunt the cost as a society. What farmers do on their land today will affect their neighbor’s grandchildren in 30 years . Making use of digital agriculture is about breaking bread and and creating a sustainable agricultural system.

About the Author: Sidra Sarwer, student of Environment at GCWUS. She is eager to write about environment and climate.