Biology HL
Biology HL
4
Chapters
553
Notes
Theme A - Unity & diversity
Theme A - Unity & diversity
Theme B - Form & Function
Theme B - Form & Function
Theme C - Interaction &  Interdependence
Theme C - Interaction & Interdependence
Theme D - Continuity & Change
Theme D - Continuity & Change
IB Resources
Theme C - Interaction &  Interdependence
Biology HL
Biology HL

Theme C - Interaction & Interdependence

Unlock Plant Growth CO2 Enrichment Experiments!

Word Count Emoji
436 words
Reading Time Emoji
3 mins read
Updated at Emoji
Last edited on 5th Nov 2024

Table of content

Carbon dioxide & photosynthesis 🌿

  • At high light and warm temps, photosynthesis often needs more CO2.
  • In greenhouses
    • With optimal light and temperature, increasing CO2 boosts photosynthesis.
    • Fun fact! Tomato farmers pump in extra CO2 on sunny days for bigger, juicier tomatoes! 🍅
  • Where does the extra CO2 come from?
    • Not-so-green method: burning natural gas.
    • Greener method: decomposing plant and animal waste (like composting!).

🌍 CO2 Over Time

  • Pre-Industrial Revolution (circa 1780): ~270ppm CO2.
  • 21st century forecast: might rise above 550ppm. 🌡
  • Think of this: more CO2 could mean more plant growth. This could mean plants eat up more CO2, potentially slowing its rise.

Free air carbon dioxide enrichment (FACE) experiments 🌳

  • What's the goal? Increase CO2 and see how plants react without changing other factors.
  • Can't be done in labs. Must be in the wild.
  • How it works
    • Build tower circles.
    • Release CO2.
    • Monitor the CO2 levels.
    • Keep it above 550ppm.
    • Use the wind to keep the CO2 in the circle. 🌬
  • There are also control plots for comparison.
  • Places it's been done: Eucalyptus forests in Australia 🐨, Oak forests in England 🌰.
  • Questions they're asking
    • Does more CO2 = more carbon storage in woods? 🌲
    • Do plants need more minerals like nitrogen or phosphorus?
    • How does added CO2 change ecosystem structure and biodiversity?
    • Can these results be applied to other forests?

📸 Keep Up with the Research!

  • Search "PhenoCam Network" and find "millhaft" to watch the experiments live. (Like reality TV, but for trees!)

Experiments vs observations 🔬

  • Where can biological research happen?
    • In the field: natural habitats (great for studying behavior or disease spread).
    • In the lab: controlled environment (awesome for things like biochemistry and molecular biology).
  • Observations
    • Mostly used in ecology and human biology.
    • Just watch and note, don't interfere.
    • Challenge: multiple factors can influence results.
  • Experiments
    • Great for determining cause and effect.
    • For instance, change the temperature and see how enzymes respond.

Unlock the Full Content! File Is Locked Emoji

Dive deeper and gain exclusive access to premium files of Biology HL. Subscribe now and get closer to that 45 🌟

Nail IB's App Icon
IB Resources
Theme C - Interaction &  Interdependence
Biology HL
Biology HL

Theme C - Interaction & Interdependence

Unlock Plant Growth CO2 Enrichment Experiments!

Word Count Emoji
436 words
Reading Time Emoji
3 mins read
Updated at Emoji
Last edited on 5th Nov 2024

Table of content

Carbon dioxide & photosynthesis 🌿

  • At high light and warm temps, photosynthesis often needs more CO2.
  • In greenhouses
    • With optimal light and temperature, increasing CO2 boosts photosynthesis.
    • Fun fact! Tomato farmers pump in extra CO2 on sunny days for bigger, juicier tomatoes! 🍅
  • Where does the extra CO2 come from?
    • Not-so-green method: burning natural gas.
    • Greener method: decomposing plant and animal waste (like composting!).

🌍 CO2 Over Time

  • Pre-Industrial Revolution (circa 1780): ~270ppm CO2.
  • 21st century forecast: might rise above 550ppm. 🌡
  • Think of this: more CO2 could mean more plant growth. This could mean plants eat up more CO2, potentially slowing its rise.

Free air carbon dioxide enrichment (FACE) experiments 🌳

  • What's the goal? Increase CO2 and see how plants react without changing other factors.
  • Can't be done in labs. Must be in the wild.
  • How it works
    • Build tower circles.
    • Release CO2.
    • Monitor the CO2 levels.
    • Keep it above 550ppm.
    • Use the wind to keep the CO2 in the circle. 🌬
  • There are also control plots for comparison.
  • Places it's been done: Eucalyptus forests in Australia 🐨, Oak forests in England 🌰.
  • Questions they're asking
    • Does more CO2 = more carbon storage in woods? 🌲
    • Do plants need more minerals like nitrogen or phosphorus?
    • How does added CO2 change ecosystem structure and biodiversity?
    • Can these results be applied to other forests?

📸 Keep Up with the Research!

  • Search "PhenoCam Network" and find "millhaft" to watch the experiments live. (Like reality TV, but for trees!)

Experiments vs observations 🔬

  • Where can biological research happen?
    • In the field: natural habitats (great for studying behavior or disease spread).
    • In the lab: controlled environment (awesome for things like biochemistry and molecular biology).
  • Observations
    • Mostly used in ecology and human biology.
    • Just watch and note, don't interfere.
    • Challenge: multiple factors can influence results.
  • Experiments
    • Great for determining cause and effect.
    • For instance, change the temperature and see how enzymes respond.

Unlock the Full Content! File Is Locked Emoji

Dive deeper and gain exclusive access to premium files of Biology HL. Subscribe now and get closer to that 45 🌟