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And here's something interesting and different. I'm almost done with the weather and Ken will take over in a minute. But there was a new study that was published in Nature and what they did is they used satellite imagery to reveal that Earth's seasons are not as synchronized as previously thought. The study basically found hot spots of seasonal asynchrony, which are areas where the timing of seasonal cycles is out of sync between nearby locations. And the research, which they did, analyzed 20 years of satellite data and it found surprising patterns in regions like the Mediterranean and tropical mountains. And the authors of the study suggest that the seasonal asynchrony might be a factor that contributes to the biodiversity in these regions. So as things are basically out of sync, these out of sync cycles, they could lead to genetic divergence and the formation of new species over time. And it's interesting because these findings have the potential implications for a wide range of fields, including animal migration, the effects of climate change and even agriculture. So the study's map was able to accurately predict the complex geography of coffee harvests in Colombia, which was interesting because that demonstrated its practical use. So that was an interesting study and they made use of good satellite data from the past 20 years. And we always know that seasons aren't always that asynchronous. Some areas, for example, they'll see their coldest temperatures at the start of what we would define as the winter and other places will see it at the end. You think that, oh, the middle of winter is the coldest, but that varies by location. But what this study has basically looked at is said that it's even more divergent than we would have thought. And it's important because in desert climates, in high deserts, you'll have desert animals that are at regular elevation deserts further north. But you'll have these pockets develop where, for whatever reason, the animals may not be able to migrate or their incubation period has changed because of the climate. And the idea is that this could lead to differences within those animals locally, right? So you have a different localized group of these animals reacting differently than you would in other places. And again, we see this with animals that you'd find at high elevations in Mexico that you find at low elevations in places like the Okanagan. Let me drop it.