Predicting economic optimal nitrogen rate with the anaerobic potentially mineralizable nitrogen test

Jason D. Clark; Fabián G. Fernández; Kristen S. Veum; James J. Camberato; Paul R. Carter; Richard B. Ferguson; David W. Franzen; Daniel E. Kaiser; Newell R. Kitchen; Carrie A.M. Laboski; Emerson D. Nafziger; Carl J. Rosen; John E. Sawyer; John F. Shanahan

doi:10.2134/agronj2019.03.0224

Predicting economic optimal nitrogen rate with the anaerobic potentially mineralizable nitrogen test

Jason D. Clark, Fabián G. Fernández, Kristen S. Veum, James J. Camberato, Paul R. Carter, Richard B. Ferguson, David W. Franzen, Daniel E. Kaiser, Newell R. Kitchen, Carrie A.M. Laboski, Emerson D. Nafziger, Carl J. Rosen, John E. Sawyer, John F. Shanahan

Soil, Water, and Climate

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

Estimates of mineralizable N with the anaerobic potentially mineralizable N (PMN_an) test could improve predictions of corn (Zea mays L.) economic optimal N rate (EONR). A study across eight US midwestern states was conducted to quantify the predictability of EONR for single and split N applications by PMN_an. Treatment factors included different soil sample timings (pre-plant and V5 development stage), planting N rates (0 and 180 kg N ha^–1), and incubation lengths (7, 14, and 28 d) with and without initial soil NH₄–N included with PMN_an. Soil was sampled (0–30 cm depth) before planting and N application and at V5 where 0 or 180 kg N ha^–1 were applied at planting. Evaluating across all soils, PMN_an was a weak predictor of EONR (R² ≤ 0.08; RMSE, ≥67 kg N ha^–1), but the predictability improved (15%) when soils were grouped by texture. Using PMN_an and initial soil NH₄–N as separate explanatory variables improved EONR predictability (11–20%) in fine-tex-tured soils only. Delaying PMN_an sampling from pre-plant to V5 regardless of N fertilization improved EONR predictability by 25% in only coarse-textured soils. Increasing PMN_an incubations beyond 7 d modestly improved EONR predictability (R² increased ≤0.18, and RMSE was reduced ≤7 kg N ha^–1). Alone, PMN_an predicts EONR poorly, and the improvements from partitioning soils by texture and including initial soil NH₄–N were relatively low (R² ≤ 0.33; RMSE ≥ 68 kg N ha^–1) compared with other tools for N fertilizer recommendations.

Original language	English (US)
Pages (from-to)	3329-3338
Number of pages	10
Journal	Agronomy Journal
Volume	111
Issue number	6
DOIs	https://doi.org/10.2134/agronj2019.03.0224
State	Published - Nov 1 2019

Bibliographical note

Funding Information:
This work was supported by funds from DuPont Pioneer. The authors thank the graduate students [Matt Schafer (IA), Curtis Ransom, Gregory Bean (MO), and Christopher Bandura (WI)], supporting scientists [Matt Yost; Dan Barker (IA); Lakesh Sharma, Amitava Chatterjee, and Norm Cattanach (ND); Todd Andraski (WI); and Tim Hart (DuPont Pioneer)], field technicians [Matt Volkmann (MO); Jason Niekamp and Joshua Vonk (IL); Glen Slater (NE); Andrew Scobbie, Thor Sellie, Nicholas Severson, Darby Martin, and Erik Joerres (MN)], and cooperating farmers and research farm personnel for their help in completing this project. Mention of trade names or commercial products in this publication is solely for the purpose of providing information and does not imply recommendation or endorsement by the affiliated Universities or the US Department of Agriculture.

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© 2019 The author(s).

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Clark, J. D., Fernández, F. G., Veum, K. S., Camberato, J. J., Carter, P. R., Ferguson, R. B., Franzen, D. W., Kaiser, D. E., Kitchen, N. R., Laboski, C. A. M., Nafziger, E. D., Rosen, C. J., Sawyer, J. E., & Shanahan, J. F. (2019). Predicting economic optimal nitrogen rate with the anaerobic potentially mineralizable nitrogen test. Agronomy Journal, 111(6), 3329-3338. https://doi.org/10.2134/agronj2019.03.0224

Clark, JD, Fernández, FG, Veum, KS, Camberato, JJ, Carter, PR, Ferguson, RB, Franzen, DW, Kaiser, DE, Kitchen, NR, Laboski, CAM, Nafziger, ED, Rosen, CJ, Sawyer, JE & Shanahan, JF 2019, 'Predicting economic optimal nitrogen rate with the anaerobic potentially mineralizable nitrogen test', Agronomy Journal, vol. 111, no. 6, pp. 3329-3338. https://doi.org/10.2134/agronj2019.03.0224

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abstract = "Estimates of mineralizable N with the anaerobic potentially mineralizable N (PMNan) test could improve predictions of corn (Zea mays L.) economic optimal N rate (EONR). A study across eight US midwestern states was conducted to quantify the predictability of EONR for single and split N applications by PMNan. Treatment factors included different soil sample timings (pre-plant and V5 development stage), planting N rates (0 and 180 kg N ha–1), and incubation lengths (7, 14, and 28 d) with and without initial soil NH4–N included with PMNan. Soil was sampled (0–30 cm depth) before planting and N application and at V5 where 0 or 180 kg N ha–1 were applied at planting. Evaluating across all soils, PMNan was a weak predictor of EONR (R2 ≤ 0.08; RMSE, ≥67 kg N ha–1), but the predictability improved (15%) when soils were grouped by texture. Using PMNan and initial soil NH4–N as separate explanatory variables improved EONR predictability (11–20%) in fine-tex-tured soils only. Delaying PMNan sampling from pre-plant to V5 regardless of N fertilization improved EONR predictability by 25% in only coarse-textured soils. Increasing PMNan incubations beyond 7 d modestly improved EONR predictability (R2 increased ≤0.18, and RMSE was reduced ≤7 kg N ha–1). Alone, PMNan predicts EONR poorly, and the improvements from partitioning soils by texture and including initial soil NH4–N were relatively low (R2 ≤ 0.33; RMSE ≥ 68 kg N ha–1) compared with other tools for N fertilizer recommendations.",

author = "Clark, {Jason D.} and Fern{\'a}ndez, {Fabi{\'a}n G.} and Veum, {Kristen S.} and Camberato, {James J.} and Carter, {Paul R.} and Ferguson, {Richard B.} and Franzen, {David W.} and Kaiser, {Daniel E.} and Kitchen, {Newell R.} and Laboski, {Carrie A.M.} and Nafziger, {Emerson D.} and Rosen, {Carl J.} and Sawyer, {John E.} and Shanahan, {John F.}",

note = "Funding Information: This work was supported by funds from DuPont Pioneer. The authors thank the graduate students [Matt Schafer (IA), Curtis Ransom, Gregory Bean (MO), and Christopher Bandura (WI)], supporting scientists [Matt Yost; Dan Barker (IA); Lakesh Sharma, Amitava Chatterjee, and Norm Cattanach (ND); Todd Andraski (WI); and Tim Hart (DuPont Pioneer)], field technicians [Matt Volkmann (MO); Jason Niekamp and Joshua Vonk (IL); Glen Slater (NE); Andrew Scobbie, Thor Sellie, Nicholas Severson, Darby Martin, and Erik Joerres (MN)], and cooperating farmers and research farm personnel for their help in completing this project. Mention of trade names or commercial products in this publication is solely for the purpose of providing information and does not imply recommendation or endorsement by the affiliated Universities or the US Department of Agriculture. Publisher Copyright: {\textcopyright} 2019 The author(s).",

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AU - Rosen, Carl J.

AU - Sawyer, John E.

AU - Shanahan, John F.

N1 - Funding Information: This work was supported by funds from DuPont Pioneer. The authors thank the graduate students [Matt Schafer (IA), Curtis Ransom, Gregory Bean (MO), and Christopher Bandura (WI)], supporting scientists [Matt Yost; Dan Barker (IA); Lakesh Sharma, Amitava Chatterjee, and Norm Cattanach (ND); Todd Andraski (WI); and Tim Hart (DuPont Pioneer)], field technicians [Matt Volkmann (MO); Jason Niekamp and Joshua Vonk (IL); Glen Slater (NE); Andrew Scobbie, Thor Sellie, Nicholas Severson, Darby Martin, and Erik Joerres (MN)], and cooperating farmers and research farm personnel for their help in completing this project. Mention of trade names or commercial products in this publication is solely for the purpose of providing information and does not imply recommendation or endorsement by the affiliated Universities or the US Department of Agriculture. Publisher Copyright: © 2019 The author(s).

PY - 2019/11/1

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Predicting economic optimal nitrogen rate with the anaerobic potentially mineralizable nitrogen test

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