Pollen Germination and Tube Growth in Northern Highbush Blueberry are Inhibited by Extreme Heat

The increasing intensity and frequency of extreme heat events threaten crop productivity globally. Certain phases of plant reproduction necessary for fertilization are highly sensitive to extreme heat, particularly during pollen development, germina-tion, and tube elongation. However, few studies have assessed the effects of extreme heat on pollen performance in perennial crop plants. To understand how northern highbush blueberry pollen responds to high temperatures, we quantified pollen germi-nation and pollen tube growth in vitro using four commercially relevant cultivars (Bluecrop, Elliott, Jersey, and Liberty) in climate-controlled chambers. We also tested recovery from high heat in 'Bluecrop' to determine whether pollen tubes can still ger-minate and grow after short bursts of extreme heat. We found the highest proportion of germinated pollen tetrads and the greatest pollen tube growth at 20 and 30 degrees C, and the lowest levels at 10 and 40 degrees C, with nearly complete inhibition at 40 degrees C. Exposure to between 30 and 40 degrees C revealed significant reduction in pollen germination and tube growth above 35 degrees C across all cultivars and assessment times. Exposure to 37.5 degrees C for only 4 hours resulted in substantial reductions in pollen germination and pollen tube growth, even after pollen was moved to optimal conditions of 25 degrees C. Extreme heat ex-posure, even for a short duration, significantly limits blueberry pollen germination and tube development. This is expected to have cascading effects on fruit set and crop yield. The nonreversibility of the effects on pollen highlights the need to prevent fields reaching damaging temperatures by developing crop monitoring and management strategies to protect crops during bloom.

Automated summary

The increasing intensity and frequency of extreme heat events have a negative impact on crop productivity worldwide. This study focuses on the effects of extreme heat on pollen performance in perennial crop plants, specifically northern highbush blueberry. The research finds that exposure to high temperatures inhibits pollen germination and tube growth, even after moving the pollen to optimal conditions. These findings highlight the importance of preventing damaging temperatures in order to protect crop yield during bloom.