Abstract

The production of cereal, legume and oilseed crops on the prairie region of Canada is largely rainfed, with high variability in the accumulation and timing of precipitation. In turn, the fluctuation of climate imparts change in farming practice. The objective of the current study is to measure the effect of rainfall and temperature on grain yield, based on longitudinal data for multiple crops on a Saskatchewan farming operation. Adjustment was made for days to maturity, fertilizer management, crop inputs, and procedures (e.g., harvest method). Detailed and thorough records of rainfall and farming routine were obtained from a farm operator on different field plots over 33 consecutive growing seasons from 1986 to 2018. The efficacy of multiple adaptive farming practices to crop yield were also evaluated, and included seed treatment, swathing, desiccation, and in-crop spraying of fungicide or pesticide. Statistical models were formulated for the association of these factors to crop yield for canaryseed (Phalaris canariensis L.), canola (Brassica napus L.), lentil (Lens culinaris Medik.) and wheat (Triticum turgidum L.). Results from this study show that temperature and rainfall above the long-term average were negatively associated with wheat yield, although the effect modification between average temperature and cumulative rainfall was positively associated with wheat yield. Over 63% of the observed variation in crop yield was attributable to planting year on this farming operation. Crop diversification is key to mitigate the effects of extreme rainfall and temperature variation on yield in this agroregion.

Highlights

  • Dryland farming with inorganic fertilizer management and other inputs is the basis of conventional agriculture on the northern Great Plains of Canada and the United States (Grant & Flaten, 2019)

  • The interaction of rainfall accumulation and average temperature was associated with greater wheat yield

  • The opposite relationship was observed in canola crops, in that increased average temperature and rainfall accumulation above the long-term mean in the same growing season was associated with decreased yield

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Summary

Introduction

Dryland farming with inorganic fertilizer management and other inputs is the basis of conventional agriculture on the northern Great Plains of Canada and the United States (Grant & Flaten, 2019). Findings from small plot field experiments may not be observed to have the same effect among producers due to uncontrolled events (Fernandez, Turkington, & May, 2009). Random occurrences such as precipitation events affect soil moisture, which in turn influences when field activities can be undertaken for an area spanning many hectares. Seeding, crop spraying and harvest activities are often delayed due to excess soil moisture (Perilli, Mitchell, Grant, & Pisante, 2010). On the Canadian prairie, large amounts of variation in crop yield have been attributed to seeding rate, fertilizer use and days to maturity (May et al, 2012)

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