This simulation shows how plant, deer and wolf populations impact each other in a deciduous forest ecosystem.
This simulation shows how plant, deer and wolf populations impact each other in a deciduous forest ecosystem.
This simulation shows how plant, deer and wolf populations impact each other in a deciduous forest ecosystem.
This simulation shows how plant, deer and wolf populations impact each other in a deciduous forest ecosystem.
6 months ago
This simulation shows how plant, deer and wolf populations impact each other in a deciduous forest ecosystem.
This simulation shows how plant, deer and wolf populations impact each other in a deciduous forest ecosystem.
This simulation shows how plant, deer and wolf populations impact each other in a deciduous forest ecosystem.
This simulation shows how plant, deer and wolf populations impact each other in a deciduous forest ecosystem.
7 months ago
This simulation shows how plant, deer and wolf populations impact each other in a deciduous forest ecosystem.
This simulation shows how plant, deer and wolf populations impact each other in a deciduous forest ecosystem.
This simulation shows how plant, deer and wolf populations impact each other in a deciduous forest ecosystem.
This simulation shows how plant, deer and wolf populations impact each other in a deciduous forest ecosystem.
Siempre va a ser exponencial creciente o decreciente porque no hay retroalimentacion. No da una dinamica limitada, porque los depredadores limita la poblacion de ciervos pero los ciervos no estan limitando a los depredadores.
Siempre va a ser exponencial creciente o decreciente porque no hay retroalimentacion. No da una dinamica limitada, porque los depredadores limita la poblacion de ciervos pero los ciervos no estan limitando a los depredadores.
The urban heat island (UHI) effect describes the local increase of surface and air temperatures in cities compared to their surroundings. This effect is due to complex factors, mostly related to the transfer of solar energy through a city. Dense urban developments absorb and retain more heat than gr
The urban heat island (UHI) effect describes the local increase of surface and air temperatures in cities compared to their surroundings. This effect is due to complex factors, mostly related to the transfer of solar energy through a city. Dense urban developments absorb and retain more heat than green spaces. Tall buildings restrict the heat transfer out of the city. This effect is related to SGD 11, which focuses on making cities inclusive, safe, resilient, and sustainable. 
3 months ago
This simulation shows how plant, deer and wolf populations impact each other in a deciduous forest ecosystem.
This simulation shows how plant, deer and wolf populations impact each other in a deciduous forest ecosystem.
7 months ago
   Local transmission - 241    Imported transmission - 9    Recovery - 226    Death Due to Covid19 - 15     Show More
Local transmission - 241
Imported transmission - 9
Recovery - 226
Death Due to Covid19 - 15
5 days ago