Bioenergetics test Year 10

Question 1

Parts of the leaf

Answer 1

1. palisade mesophyll
2. epidermal tissue
3. spongy mesophyll
4. guard cells
5. stoma/ stomata
6. ploem
7. xylem

Question 2

Features of palisade mesophyll

Answer 2

• cell shape allows them to be tightly packed
• has lots of chloroplasts to maximise amount of light energy that can be captured in photosynthesis

Question 3

Features of epidermal tissue

Answer 3

• single outer layer of flattened cells that protect the leaf
• waterproof waxy layer on upper epidermis - prevents water loss
• lower epidermis contains stomata and guard cells

Question 4

Features of spongy mesophyll

Answer 4

• loosely packed
• large surface area
• lots of air gaps
• maximises rate of gas exchange for photosynthesis
• allows gases to diffuse easily through leaf to and from stomata

Question 5

features of guard cells

Answer 5

open and close stomata

Question 6

What are stomata/ stoma

Answer 6

pores in the leaf that gases can diffuse through
(turgid = close and flaccid = open)

Question 7

What is meristem tissue?

Answer 7

• made of unspecialised cells that can divide repeatedly to make other cells
• new cells can differentiate into other types of plant cell, allowing for the plant to grow

Question 8

What do phloem cells do?

Answer 8

transport sugars made in leaves to the rest of the plant

Question 9

features of phloem

Answer 9

• elongated cells to transport sugars over long distances
• companion cells have many mitochondria for active transport
• end walls have pores to allow sugar solution to pass from cell to cell easily

Question 10

What do xylem cells do?

Answer 10

transport water and mineral ions through the plant

Question 11

Features of xylem cells

Answer 11

• hollow tubes (lumen) with no end walls to allow water and minerals to flow easily
• lignin in walls to provide strength and support

Question 12

Describe the transport of water and minerals

Answer 12

1. root hair cells take up water from the soil by osmosis
2. takes up minerals by activie transport
3. xylem carries mineral and water solution from roots to stem to leaves
4. flow of water up through the plant is called the transpiration stream
5. water is lost from leaves by evaporation and diffusion (transpiration)
6. loss of water from leaf pulls up more water through xylem

Question 13

Describe the proccess of transporting dissolved food

Answer 13

• movement of dissolved food molecules through phloem is called translocation
  1. food molecules are produced in leaves by photosynthesis
  2. food transported in phloem to the rest of the plant as dissolved sugars
  3. sugar may be used by cells immediately or converted into starch for storage
  4. food molecules can be transported upwards towards growing shoots or down towards roots and storage organs

Question 14

What is the role of the stomata?

Answer 14

• without stomata there would be too little CO2 for photosynthesis and oxygen could not be released
• a major source of water loss
• water evaporates from spongy mesophyll
• water vapour diffuses out of the stomata
• water loss is controlled by pairs of guard cells

Question 15

What are the environmental factors that affect the rate of transpiration?

Answer 15

• humidity (decrease concentration gradient)
• temperature (increases kinetic energy)
• air movement (increasees concentration gradient)
• light intensity (photosynthesis opens stomata, water is lost through open stomata)

Question 16

How do you investigate the rate of transpiration?

Answer 16

• potometer
• measure distance that air bubble moves and divide by time in minutes

Question 17

Why is photosynthesis so important?

Answer 17

• transfers energy from surroundings into living things
• plants use photosynthesis to make glucose molecules that provide the energy that they need
• glucose molecules are used to build all other materials that make up a plant (plant biomass)
• biomass and store of energy passes into food chain when animals feed on plants

photosynthesis supplies energy to food chain

Question 18

what occurs during photosynthesis?

Answer 18

• takes place in chloroplasts which have chlorophyll
• traps energy tranferred by light
• allows glucose to be made with water and carbon dioxide
• glucose is a simple sugar
• oxygen is produced
• products have more energy than reactants
• energy is transferred from the environment by light
• endothermic reaction

Question 19

What is the word equation for photosynthesis

Answer 19

carbon dioxide + water -> light glucose + oxygen

Question 20

Balanced symbol equation for photosynthesis

Answer 20

6 CO2 + 6 H2O → C6H12O6 + 6 O2

Question 21

How do you calculate the rate of photosynthesis?

Answer 21

amount of oxygen produced/ time taken to collect it

Question 22

What are the factors that affect photosynthesis?

Answer 22

1. light intensity (energy transfer increases)
2. Temperature (increases speed that molecules collide and react, but denatures enzymes at high temperatures)
3. carbon dioxide concentration (if all other factors are favorable it can become a limiting factor)
4. amount of chlorophyll (can limit the rate of photosynthesis if there isn’t enough)

Question 23

How do farmers use the limiting factors to produce more crops?

Answer 23

• introduce CO2 artificially
• increase temperature using heaters
• artificial lights increase “daylength” and intensity of light
• expensive but gives higher yields & more income

Question 24

How do limiting factors interact?

Answer 24

at some point when the limiting factor is no longer the limiting factor other factors become the limiting factor, meaning that the rate of photosynthesis plateaus even if you continue to increase the previous limiting factor

Question 25

What is the inverse square law?

Answer 25

light intensity is inversely proportional to the square of the distance
I = 1/d^2

I = light intensity
d = distance from lamp

Question 26

How do you measure the effect of light intensity on the rate of photosynthesis of pondweed?

Answer 26

• water and sodium hydrogen carbonate solution in a beaker
• funnel with pondweed in the beaker
• measuring cylinder to measure the volume of water displaced
• or counting bubbles
• metre ruler to measure distance from light source
• change distance from light source

Question 27

What is glucose made from photosynthesis used for?

Answer 27

• energy release and storage
• make molecules for growth

Question 28

How does energy release and storage work?

Answer 28

• respiration to release energy
• produce fat or oil molecules for storage
• glucose molecules can be linked together into insoluble stach for storage
• starch, fat & oil can be stored in cells
• when needed they are broken down and converted back into glucose

Question 29

How does making molecules for growth work for plants?

Answer 29

• produce cellulose to strengthen cell walls
• produce amino acids that are needed for protein synthesis
• nitrate ions absorbed from the soil are used to make (synthesise) protein

Question 30

What is respiration?

Answer 30

an exothermic reaction that releases the energy stored in molecules such as glucose so that the energy is available for living processes

Question 31

Why do organisms need to respire?

Answer 31

• chemical reactions to build larger molecules from smaller ones
• movement (eg muscle contraction)
• active transport where substances are moved against a concentration gradient
• keeping warm in some animals

Question 32

What is aerobic respiration?

Answer 32

• glucose can be completely oxidised with enough oxygen available
• a lot of energy is released
• takes place in mitochondria

Question 33

What is the word equation of aerobic respiration?

Answer 33

glucose + oxygen -> carbon dioxide + water

Question 34

What is the balanced symbol equation of aerobic respiration?

Answer 34

C6H12O6 + 6O2 -> 6 CO2 + 6 H2O

Question 35

What is anaerobic respiration?

Answer 35

• when oxygen levels are too low anaerobic respiration takes place
• less energy is released per molecule of glucose
• glucose is not completely oxidised

Question 36

Word equation of anaerobic respiration in animals

Answer 36

glucose -> lactic acid

Question 37

Word equation for aerobic respiration in plants and yeast

Answer 37

glucose -> ethanol + carbon dioxide

Question 38

What is anaerobic respiration in yeast called?

Answer 38

fermentation
- important for making bread + alcoholic drinks

Question 39

How does the body change during exercise?

Answer 39

• heat rate increases to supply more oxygenated blood to the muscles
• increase breathing rate and breath volume to increase oxygen supply from the air

Question 40

What happens when you are in oxygen debt?

Answer 40

• heart and breathing can’t keep up with aerobic respiration and switches to anaerobic
• anaerobic respiration causes a build up of lactic acid in the muscles
• extra oxygen is needed to remove lactic acid when exercise stops
• muscles can become fatigued and stop contracting efficiently
• oxygen debt is the amount of oxygen needed after exercise to react with the lactic acid and remove it

Question 41

How does the body remove lactic acid?

Answer 41

• blood removes lactic acid from muscles and take it to liver
• converted back into glucose
• glucose can be stored as glycogen or used in respiration

Question 42

What is metabolism?

Answer 42

The sum of all chemical reactions in the cells of an organism

can synthesise new molecules or break down
controlled by enzymes

relies on energy from respiration

Question 43

What reactions involve carbohydrates?

Answer 43

• plants = cellulose and starch
• animals = glycogen
• both can be broken down into glucose when needed for respiration

Question 44

What reactions involve proteins in plants and animals?

Answer 44

• plants = nitrates from soil + glucose from photosynthesis -> animo acids
• animals = animo acids from food -> new proteins
• excess proteins -> urea + excreted

Question 45

What reactions involve lipids?

Answer 45

• synthesised from one molecule of glycerol and three fatty acid molecules
• lipase can break down lipids again
• made from the products of photosynthesis/ digestion