Environmental systems and societies IB

Created by

María Guamán

Cards (28)

What are the foundational concepts in Environmental Systems and Societies (ESS) related to ecosystems?
First and Second Laws of Thermodynamics, Entropy, Equilibrium, Feedback mechanisms, and Energy flow.
What does the First Law of Thermodynamics state? 
Energy cannot be created or destroyed.
Energy can only be transformed from one form to another.
In ecosystems, energy enters from the sun and is transferred through trophic levels.
How does energy flow through ecosystems according to the First Law of Thermodynamics? 
Energy enters from the sun and is transformed through different trophic levels without being lost.
What does the Second Law of Thermodynamics state? 
Some energy is lost as heat during transformations, leading to increased entropy.
What is the implication of the Second Law of Thermodynamics for energy transfer in ecosystems? 
Energy transfer is inefficient, with energy lost as heat at each trophic level.
What is entropy in the context of ecosystems? 
Entropy is a measure of disorder or randomness in a system.
How do ecosystems move in terms of entropy over time? 
Ecosystems tend to move from low entropy (organized) to high entropy (disordered) without constant energy input.
What are the two types of equilibrium in ecosystems? 
Static Equilibrium: No change, rare in nature.
Dynamic Equilibrium: Fluctuating but stable, absorbs small disturbances.
What is positive feedback in ecosystems? 
Positive feedback amplifies changes, driving the system away from equilibrium.
Can you give an example of positive feedback in ecosystems? 
In global warming, melting ice reduces reflective surfaces, causing more heat absorption.
What is negative feedback in ecosystems? 
Negative feedback stabilizes a system by counteracting changes.
How does predator-prey interaction illustrate negative feedback? 
If prey populations increase, predator numbers rise, but as predators consume prey, prey numbers decrease, stabilizing the system.
How does the First Law of Thermodynamics manifest in ecosystems? 
Sunlight provides energy for producers through photosynthesis.
Plants convert light energy to chemical energy (glucose).
Energy is transferred through herbivores to carnivores.
What percentage of energy is typically transferred from one trophic level to the next?
About 10% of energy is transferred; the rest is lost as heat.
Why do food chains rarely exceed four or five levels?
There’s not enough energy to sustain higher levels due to energy loss at each trophic transfer.
What is complexity in ecosystems? 
Refers to the number of species and interactions.
More complex ecosystems are more resilient.
They have multiple pathways for energy and nutrient flow.
How does stability relate to complexity in ecosystems? 
Ecosystems with higher complexity are often more stable and can return to equilibrium after disturbances.
How do the First and Second Laws of Thermodynamics connect to ecosystem stability? 
They explain energy movement and loss as heat.
Greater entropy requires constant energy input to maintain order.
Feedback mechanisms help ecosystems maintain stability despite disturbances.
What is the primary source of energy for most ecosystems?
Solar energy.
How is solar energy input measured in ecosystems? 
It is measured in joules per square meter per second.
How much solar energy input is typically received in direct sunlight? 
Around 1,000 joules per square meter per second.
How does a plant utilize solar energy? 
Plants perform photosynthesis, converting solar energy into chemical energy stored in glucose.
What happens to the energy absorbed by a plant during photosynthesis? 
Only about 10% is converted into chemical energy; the rest is lost as heat.
How much energy is typically stored as biomass when a herbivore consumes food? 
About 10% of the energy consumed is stored as biomass.
What are common energy outputs in an open ecosystem? 
Heat loss to the environment and energy loss through waste or migration.
How does energy flow through trophic levels in an ecosystem? 
Producers absorb energy from sunlight.
Primary consumers eat producers and receive energy.
Secondary consumers eat primary consumers and receive energy.
Energy transfer is inefficient, with losses at each level.
What is the relationship between energy inputs and outputs in an ecosystem? 
Energy inputs must equal energy outputs plus any energy stored within the ecosystem.
Why is maintaining a balance of energy inputs and outputs crucial for ecosystems? 
It is essential for sustaining life and maintaining ecosystem dynamics.