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by floatingatoll
2603 days ago
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Yes, that's the core premise made by the author: If we're going to plant male plants, either we plant female plants (which have evolved to take up the maximum amount of pollen possible) or our lungs take up the pollen (which results in biological issues). There's an inflection point where the amount of pollen left in the air by a sparse male forest equals the amount of pollen left in the air by a dense balanced-ratio forest. The article doesn't say where that inflection point is, though — when you state that inflection point as "a balanced-ratio forest can be XYZ as dense as a male-only forest with same or lower pollen counts", XYZ could be 1.1x, 20x, 5000x. Extrapolating that to urban trees, with pollen measured at human face heights, would be the holy grail of prove-or-disprove the value of this approach. It is very likely that trees evolved to pollinate no more than is necessary to deliver the correct amount of pollen to the trees near them. I cannot find any estimates of this percentage at all, so as with XYZ above, it could be 1%, 10%, or 99%. More science is definitely required in both forest-shaped configurations and urban-shaped pockets. |
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That's why many plants have nice flowers and use the help of insect to transport the pollen from a plant to another plant. (By the way, the yellow balls in the legs of the bees are pollen that they collect and take to the hive, for food. They "stole" most of the pollen, a small part drops in the other flower.)
Also, the link in the article in the sentence "The pollen grains do not just get to the female trees by accident; rather they are drawn there by this mutual attraction." is not a good justification of that "fact".