Depending on the species selected, leached by previous crops, augmenting subsequent crops鈥 yield potential while minimizing future input costs. Increasingly, cover crops are sown as a second cash crop鈥攁 practice, known as 鈥渄ouble-cropping,鈥 which benefits the farmer as well as the soil. By extending every cultivated acre鈥檚 seasonal production capacity, double-cropping is one that鈥檚 boosting yields worldwide. Other forms of intensification include spacing crop rows more narrowly鈥攗sing 鈥攁苍诲 , wherein one species is planted among or between the rows of another.
听
A corollary finding of this research is that not every farm acre should be enlisted for food production. Soils that require intensive inputs to realize the yield potential of hybrids and genetically engineered seeds may not be worth farming, as the costs of remediation could exceed harvest revenues. The greatest yields鈥攁苍诲 profits鈥攁re achieved by selecting arable land and in the crops proven to thrive in local soils and climates, as this maximizes resource efficiencies and concentrates management efforts.
听
More data, greater precision
听
Improved soil health unlocks the genetic potential of high-yielding varieties, but it is ably assisted by precision agriculture鈥攖he crop-system efficiencies enabled by digital tools and the data they generate鈥攊n sustaining the upward trajectory of the yield curve. Rentsche attributes the ongoing profitability of his operation to the yield monitor he first affixed to his combine in 2008. 鈥淚t taught us to farm better,鈥 he says, citing the bumper-crop effect of more timely and targeted fertilizer applications.
听
Introduced in the early 鈥90s, yield monitors furnish farmers with georeferenced data on crop yields and moisture content. Software then converts monitor data into that reveal over time precisely where鈥攁苍诲 which kind of鈥攔emediation is needed. For Rentsche, 30 years of data affirms the wisdom of targeting interventions to the weakest areas. 鈥淚 get more yield by bringing the low end up 10 percent,鈥 he says, 鈥渢han by swinging for the fences on the whole field.鈥
听
Data guides Rentsche in every action he takes, helping him realize greater yields while minimizing input costs. He鈥檚 prescriptively planting rather than blanketing fields with seed, installing drainage tiles only where needed, applying fertility to just the needier plants, and calibrating nitrogen applications so that they infuse only his grain and not the local or regional watershed.
听
But digital tools don鈥檛 just help farmers achieve greater yields. Most importantly, they provide the insight crucial to profitable decision-making. For example, Rentsche鈥檚 biggest gains to date have come from the precision application of a combination fungicide/insecticide. It has improved his yields per acre by 20 bushels by releasing the genetic potential of his seed investment, which produces straighter, sturdier, taller stalks. Since those sturdy stalks extend his harvest window, he鈥檚 better able to amortize the annual cost of his equipment. Yet maintaining these gains requires trade-offs. To prevent fungicide resistance, he must rotate either the chemical or the crop it鈥檚 used on, as careful stewardship is the key to preserving its economic benefits. 鈥淭he predictive power these digital tools give me is very useful in analyzing these trade-offs,鈥 he says. 鈥淚 measure everything, find out what consistently works with the rest of the production system, and put it into practice as prescribed. Data science is my secret sauce.鈥
听
No limit in sight
Depending on the species selected, leached by previous crops, augmenting subsequent crops鈥 yield potential while minimizing future input costs. Increasingly, cover crops are sown as a second cash crop鈥攁 practice, known as 鈥渄ouble-cropping,鈥 which benefits the farmer as well as the soil. By extending every cultivated acre鈥檚 seasonal production capacity, double-cropping is one that鈥檚 boosting yields worldwide. Other forms of intensification include spacing crop rows more narrowly鈥攗sing 鈥攁苍诲 , wherein one species is planted among or between the rows of another.
听
A corollary finding of this research is that not every farm acre should be enlisted for food production. Soils that require intensive inputs to realize the yield potential of hybrids and genetically engineered seeds may not be worth farming, as the costs of remediation could exceed harvest revenues. The greatest yields鈥攁苍诲 profits鈥攁re achieved by selecting arable land and in the crops proven to thrive in local soils and climates, as this maximizes resource efficiencies and concentrates management efforts.
听
More data, greater precision
听
Improved soil health unlocks the genetic potential of high-yielding varieties, but it is ably assisted by precision agriculture鈥攖he crop-system efficiencies enabled by digital tools and the data they generate鈥攊n sustaining the upward trajectory of the yield curve. Rentsche attributes the ongoing profitability of his operation to the yield monitor he first affixed to his combine in 2008. 鈥淚t taught us to farm better,鈥 he says, citing the bumper-crop effect of more timely and targeted fertilizer applications.
听
Introduced in the early 鈥90s, yield monitors furnish farmers with georeferenced data on crop yields and moisture content. Software then converts monitor data into that reveal over time precisely where鈥攁苍诲 which kind of鈥攔emediation is needed. For Rentsche, 30 years of data affirms the wisdom of targeting interventions to the weakest areas. 鈥淚 get more yield by bringing the low end up 10 percent,鈥 he says, 鈥渢han by swinging for the fences on the whole field.鈥
听
Data guides Rentsche in every action he takes, helping him realize greater yields while minimizing input costs. He鈥檚 prescriptively planting rather than blanketing fields with seed, installing drainage tiles only where needed, applying fertility to just the needier plants, and calibrating nitrogen applications so that they infuse only his grain and not the local or regional watershed.
听
But digital tools don鈥檛 just help farmers achieve greater yields. Most importantly, they provide the insight crucial to profitable decision-making. For example, Rentsche鈥檚 biggest gains to date have come from the precision application of a combination fungicide/insecticide. It has improved his yields per acre by 20 bushels by releasing the genetic potential of his seed investment, which produces straighter, sturdier, taller stalks. Since those sturdy stalks extend his harvest window, he鈥檚 better able to amortize the annual cost of his equipment. Yet maintaining these gains requires trade-offs. To prevent fungicide resistance, he must rotate either the chemical or the crop it鈥檚 used on, as careful stewardship is the key to preserving its economic benefits. 鈥淭he predictive power these digital tools give me is very useful in analyzing these trade-offs,鈥 he says. 鈥淚 measure everything, find out what consistently works with the rest of the production system, and put it into practice as prescribed. Data science is my secret sauce.鈥
听
No limit in sight
