Botany One on Nostr: The study revealed significant adaptations in sorghum root architecture under ...
The study revealed significant adaptations in sorghum root architecture under phosphorus-deficient conditions. Roots grew longer and produced more tips, while becoming thinner to cover more area efficiently. These changes were observed as early as 21 days after germination, with variations among different sorghum varieties. The researchers identified four distinct root system types, suggesting genetic control over these adaptive responses.
Published at
2024-09-20 11:30:01Event JSON
{
"id": "3430bd698ffb66182bfd3f41e594914a3282c3e58469961804d3e996dc794bbb",
"pubkey": "90f20b46036dc8275495093b77b32234e685907c7af246dc8274e63c8494289f",
"created_at": 1726831801,
"kind": 1,
"tags": [
[
"e",
"502eb80a4ef0e7eaeb9bf5dac20bdacddbb9a88fe1e189bbb0ca527d9387bec7",
"wss://relay.mostr.pub",
"reply"
],
[
"proxy",
"https://botany.social/users/botanyone/statuses/113169648949217625",
"activitypub"
]
],
"content": "The study revealed significant adaptations in sorghum root architecture under phosphorus-deficient conditions. Roots grew longer and produced more tips, while becoming thinner to cover more area efficiently. These changes were observed as early as 21 days after germination, with variations among different sorghum varieties. The researchers identified four distinct root system types, suggesting genetic control over these adaptive responses.",
"sig": "150f3b80a0bc17c6c2e784892e75dbc3a87a89e058f9ac8a080ef3fb50ebf36e4a7ffa6a8b7a915e072cba698715d1f76f6b31ff56ff889a4a3450622da162e5"
}
