Delaware Agronomy Blog

University of Delaware Cooperative Extension

Category: Fertility (page 3 of 4)

Cover Crop Biomass and Termination Considerations

March 25, 2022 / / Comments Off on Cover Crop Biomass and Termination Considerations

Jarrod Miller, Amy Shober, & Mark VanGessel

The benefits of cover crops to the following corn crop can include additional nitrogen (N) or weed suppression, but maximizing these benefits requires later termination to build greater biomass. These N and weed control characteristics are especially appealing this season as input costs are relatively high while supplies are relatively low. However, growers should take the time to estimate the additional costs of allowing a more robust cover crop to accumulate this spring, as surface residues reduce proper seed placement as well as limit seed to soil contact. This article will discuss the management of cover crops for both maximizing N benefits as well as weed suppression in the following corn crop.

Aerial picture of cover crop plots

Cover crop plots at the Carvel Research and Education Center.

Maximizing Cover Crop Biomass

Estimating the amount of N that could be available requires knowledge about 1) total cover crop biomass and 2) cover crop C:N ratio, both of which are affected by termination timing. The longer a cover crop is allowed to grow, the greater the amount of cover crop biomass will accumulate. Continue reading

UMD and UD Seeking Farmer Cooperators for N Study in Corn

March 20, 2021 / / Comments Off on UMD and UD Seeking Farmer Cooperators for N Study in Corn

The University of Maryland and University of Delaware are looking for farmers throughout both states to participate in a research project evaluating decision making surrounding adoption of nitrogen management tools (commercially available N models, drone imagery, PSNT). We will implement a field trial in the 2021 growing season that contains six nitrogen rates applied to corn in four replicates in strips (~15 ft wide by 300 ft long) requiring about 2.5 total acres. Participants will be trained on the use of various nitrogen management tools and will be paid for their participation in the trial (W9 submission to UMD required for payment) pending eligibility to receive EQIP funding. Participants must have the ability to apply prescribed nitrogen rates and record yield at harvest using a calibrated yield monitor. We require participants to participate in a pre-season interview (in April 2021), a one-on-one post-harvest debrief session, and a focus group in November or December, all likely taking place virtually due to COVID restrictions. Farmers who have not previously partnered with Extension on research projects are encouraged to participate. If interested, please contact Dr. Nicole Fiorellino at University of Maryland at nfiorell@umd.edu and Dr. Amy Shober at University of Delaware at ashober@udel.edu.

2021 Agronomy Day

January 7, 2021 / / Comments Off on 2021 Agronomy Day

January 20th, 2021

9am-4pm. 

You must register to attend and have access to the quizzes for credits: https://udel.zoom.us/webinar/register/WN_EVCIBMb_RvqoDjAOL3S0ww.

Current credit approval:

Nutrient Management : DE (2 credits), MD (2 credits)

Pesticide  Continuing Education: DE (4 credits Private and 1A).

CCA Credits (Full Day): 4PM, 1.5NM, 0.5PA.

The full schedule is below

Continue reading

Using Foliar Manganese Applications to Correct Deficiencies

July 30, 2020 / / Comments Off on Using Foliar Manganese Applications to Correct Deficiencies

Amy L. Shober, Professor and Extension Specialist, Nutrient Management and Environmental Quality, ashober@udel.edu; Jarrod O. Miller, Assistant Professor and Extension Specialist, Agronomy, jarrod@udel.edu; Mark Reiter, Associate Professor and Extension Specialist, Soils and Nutrient Management, Virginia Tech, mreiter@vt.edu

 

This image shows areas of the field where the soybeans that were growing in a field ditch (yellow arrow) showing less Mn deficiency symptoms than areas that have better tilth. Figure credit: Jarrod Miller, UD

Soybean is susceptible to manganese (Mn) deficiency, especially when grown on sandy, low organic matter soils like we have in Delaware. Soil Mn availability is a function of both Mn concentration and soil pH. Soil Mn converts to unavailable forms as soil pH increases. So when soil pH starts creeping above 6.2, we can start to see Mn deficiency symptoms. While Mn deficiency can be widespread across the field, we can also see Mn deficiency symptoms in small pockets in a field, often occurring after liming. Deficiency symptoms can be prevalent in areas where lime applications overlapped or where the soil is sandier than the general field; thereby changing pH more quickly and becoming higher than soils with more clay, loam, and/or organic matter. Manganese deficiencies may also reveal themselves with dry soil conditions like we have seen this summer (especially when soils were tilled soils) because soil Mn also becomes less available to plants. Interestingly, Mn deficiencies are less likely in areas of the field that stay wetter (e.g., compacted wheel tracks, field ditches) as wetter soils are less oxygenated, promoting plant available forms of Mn (as seen in the photo below). Continue reading

Nutrient Deficiencies and Toxicities Related to pH, Ca and Mg

June 29, 2020 / / Comments Off on Nutrient Deficiencies and Toxicities Related to pH, Ca and Mg

We are observing a range of deficiency issues this year in corn, many of which have similar symptoms. Last week we had some images of a field with pale yellow leaves and some interveinal chlorosis that turned out to be a sulfur deficiency (https://sites.udel.edu/weeklycropupdate/?p=15087). This week we have similar symptoms, but a different diagnosis. Across this field (Figure 1), some corn appears pale and stunted, and upon closer inspection (Figure 2), there is also some stripping (interveinal chlorosis) along the leaves. Continue reading

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