{"id":5062,"date":"2015-05-26T16:22:31","date_gmt":"2015-05-26T20:22:31","guid":{"rendered":"http:\/\/blogs.edf.org\/growingreturns\/?p=5062"},"modified":"2025-06-11T12:54:52","modified_gmt":"2025-06-11T16:54:52","slug":"new-research-helps-farmers-set-targets-for-reducing-emissions","status":"publish","type":"post","link":"https:\/\/blogs.edf.org\/growingreturns\/2015\/05\/26\/new-research-helps-farmers-set-targets-for-reducing-emissions\/","title":{"rendered":"New research helps farmers set targets for reducing emissions"},"content":{"rendered":"
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Credit: photos.com<\/figcaption><\/figure>\n

The easiest way to tackle fertilizer pollution is to lower the amount of nitrogen applied to crops<\/a>, thereby reducing nutrient losses into the air and water.\u00a0The problem is, reducing fertilizer rates can also shrink crop yields, which means less income for farmers and less food on our plates.<\/p>\n

So here\u2019s the question: how can we slash nitrous oxide emissions from agriculture without sacrificing productivity?<\/p>\n

To meet this challenge, scientists need to understand the relationship between \u201cnitrogen surplus\u201d (the amount of applied nitrogen fertilizer not taken up by the plant), \u201cnutrient use efficiency\u201d (the ratio of how much yield you get from each pound of fertilizer applied) and nitrous oxide emissions that contribute to climate change. The more nitrogen a plant absorbs, the less it releases into the air in the form of nitrous oxide and into the water where it can contribute to harmful algal blooms<\/a>.<\/p>\n

Until now, the only option for farmers wanting to reduce nitrous oxide emissions has been to reduce their fertilizer rate and risk impacting yield. But new research by EDF\u2019s Trevor Anderson suggests that nitrous oxide emissions can be reduced by shifting the balance between fertilizer rate and crop yield in ways that can actually increase farm income.<\/p>\n

Emissions tipping points<\/strong><\/p>\n

Trevor examined interactions between these measures of fertilizer use and found that reductions in nitrogen surplus levels and associated increases in nutrient use efficiency rates can reduce greenhouse gases \u2013 but only up until a certain threshold of emissions is reached:<\/p>\n