Climate change and chill accumulation: implications for tree fruit production in cold-winter regions

Noorazar, Hossein; Kalcsits, Lee; Jones, Vincent P.; Jones, Matthew S.; Rajagopalan, Kirti

Climate change and chill accumulation: implications for tree fruit production in cold-winter regions

Hossein Noorazar, Lee Kalcsits, Vincent P. Jones, Matthew S. Jones and Kirti Rajagopalan ()
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Hossein Noorazar: Washington State University
Lee Kalcsits: Washington State University
Vincent P. Jones: Washington State University
Matthew S. Jones: Washington State University
Kirti Rajagopalan: Washington State University

Climatic Change, 2022, vol. 171, issue 3, No 15, 16 pages

Abstract: Abstract Winter chill accumulation is critical for the productivity and profitability of perennial tree fruit systems. Several studies have quantified the impacts of global warming on chill accumulation in the warmer production regions of the world, where insufficient chill events occur and their frequency is increasing. In contrast, we focus on a region with relatively cold winters–the Pacific Northwest United States (PNW)–where insufficient chill events are currently absent, and quantify the potential for introduction of these risks under climate change. Our results show spatial variation within the PNW, with chill accumulation projected to increase in some areas but decrease in others. There was also spatiotemporal variation in the driving factors of changes to chill accumulation. Even with decreases in chill accumulation, there are likely minimal issues with insufficient chill accumulation. However, delayed chill accumulation in combination with advances in the onset of heat accumulation can potentially shift the region from one where spring phenology is primarily forcing-driven to one where interaction between chilling and forcing processes become important. These interactions might create production risks for varieties with high chill requirements, post mid-21st century under high emissions scenarios. Future work should focus on understanding, modeling, and projecting responses across these overlapping chilling and forcing processes. Additionally, given significant spatial differences across a relatively small geographic range, it is also critical to understand and model these dynamics at a local landscape resolution for regions such as the PNW.

Keywords: Climate change; Chill requirement; Global warming; Dynamic model; Tree fruit; Dormancy; Heat accumulation (search for similar items in EconPapers)
Date: 2022
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DOI: 10.1007/s10584-022-03339-6

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