As the relative amount of water decreased, the population growth of mice declined.
The experiment involving changes in the relative amount of water aimed to explore the impact of water availability on the population growth of mice. Initially, with the relative water level set at 100, the population of mice likely exhibited optimal conditions for growth, as abundant water resources support the survival and reproduction of the population.
As the relative water level decreased to 50, 45, and 35 in subsequent simulations, the available water resources became progressively limited. This reduction in water availability likely created more challenging conditions for the mouse population, affecting their ability to thrive. In nature, water scarcity can lead to various challenges for organisms, including limited access to drinking water, changes in food availability, and alterations in the overall habitat suitability.
The observed decline in population growth with decreasing water levels reflects the sensitivity of the mice population to water availability. This simulation provides insights into the critical role of water resources in shaping population dynamics, emphasizing the interdependence between environmental factors and the growth and sustainability of populations in ecosystems.