Modeling barley yield in a dark brown chernozem after discontinuation of long-term manure application

Citation

Agomoh, I., Zvomuya, F., Hao, X., College, L. (2018). Modeling barley yield in a dark brown chernozem after discontinuation of long-term manure application. Soil Science Society of America Journal, [online] 82(2), 392-402. http://dx.doi.org/10.2136/sssaj2017.08.0284

Plain language summary

Based on crop yield over 40+ years from soil receiving various rates of cattle manure application and residual effect under rain-fed condition, our results indicated that long-term monitoring of yield will assist in the development of models for predicting when nutrient application will become necessary after manure application stopped.

Abstract

Fertilizer application on soils that have received long-term manure application is often not necessary and typically not advised for environmental reasons. Soil properties at the discontinuation of manure application may assist in modeling crop yield trends on such soils in subsequent years. The data used in this study were from a long-term field experiment initiated in 1973 at the Agriculture and Agri-Food Canada Research and Development Centre in Lethbridge, Alberta. Soil and plant samples were collected annually from 1973 through 2010 from irrigated plots that were cropped to barley (Hordeum vulgare L.) every year. Soil properties measured at the start of the experiment in 1973 were used to model yield in the control plots while soil properties measured at the end of annual manure applications in 2003 were used as predictors in partial least squares (PLS) regressions to model barley yield in subsequent years in plots in which manure application was discontinued. Soil total N, organic carbon, P, and NO3-N concentrations were the most important soil properties for modeling annual barley grain yield in manured soils using PLS regression. Our results indicate that initial measured soil properties can be a useful tool in modeling yearly crop yield. During the 7 yr following discontinuation of manure application, there was no evidence of convergence in grain yield among amendment treatments, reflecting that the soil nutrient levels were above agronomic thresholds for optimum yields. Long-term monitoring of yield will assist in the development of models for predicting when nutrient application will become necessary.