(Roughly) Daily

“Plants can’t move, yet the insects come to them and spread their pollen”*…

A canola plant damaged by heat and drought in Saskatchewan, Canada last July

The impact of climate change on agriculture is much discussed– but mostly at the level of yields. Carolyn Beans looks into what a warming planet means for fertilization and reproduction…

… heat is a pollen killer. Even with adequate water, heat can damage pollen and prevent fertilization in canola and many other crops, including corn, peanuts, and rice.

For this reason, many growers aim for crops to bloom before the temperature rises. But as climate change increases the number of days over 90 degrees in regions across the globe, and multi-day stretches of extreme heat become more common, getting that timing right could become challenging, if not impossible.

Faced with a warmer future, researchers are searching for ways to help pollen beat the heat. They’re uncovering genes that could lead to more heat-tolerant varieties and breeding cultivars that can survive winter and flower before heat strikes. They’re probing pollen’s precise limits and even harvesting pollen at large scales to spray directly onto crops when weather improves.

At stake is much of our diet. Every seed, grain, and fruit that we eat is a direct product of pollination…

Farmers and scientists are increasingly observing that unusually high springtime temperatures can kill pollen and interfere with the fertilization of crops. Researchers are now searching for ways to help pollen beat the heat, including developing more heat-tolerant varieties: “Pollen and Heat: A Looming Challenge for Global Agriculture,” from @carolynmbeans in @YaleE360.

* Nahoko Uehashi


As we try to stay cool, we might recall that it was on this date in 1960 that chlorophyll– the green pigment responsible for photosynthesis in plants– was first synthesized. The feat was accomplished by Robert Burns Woodward, the preeminent synthetic organic chemist of the twentieth century, who was awarded the Nobel Prize in 1965 for this and other syntheses of complex natural compounds (including Vitamin b12).

Robert Burns Woodward
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