IB biology past essay questions HL and
SL all units and mark scheme
2023 (A+)
Outline what is meant by the trophic level of an organism with three
... [Show More] examples from one
named habitat. (4 max) - Answer-feeding level for an organism in a food chain
naming of habitat (1 mark)
naming three trophic levels correctly (1 mark)
three examples forming a food chain from the named habitat (1 mark)
2. Compare the ways in which autotrophic, heterotrophic and saprotrophic organisms
obtain energy. (6 max) - Answer-autotrophs use an external / non-organic energy
source
(reject statements suggestion that energy is made)
(some) autotrophs use light / (some) autotrophs use photosynthesis
(some) autotrophs use inorganic chemical reactions / (some) autotrophs use
chemosynthesis
heterotrophs obtain energy from other organisms
heterotrophs (usually) ingest food / consume food
saprotrophs obtain energy from non-living matter / dead organisms
saprotrophs digest organic matter extracellularly
3. Draw a labelled sigmoid population growth curve. 4 marks - Answer-x-axis (time) and
y-axis (number in population/of individuals) correctly labelled; (do not accept growth on
y-axis)
S curve correctly drawn;
lag phase;
exponential/log phase;
population growth slowing down / transitional phase / environmental resistance;
plateau phase;
To award marks phases must be labelled not just drawn. Award 3 max if no axes
shown.
4. Explain the factors that cause a population to follow the sigmoid ( S-shaped) growth
curve. (8 max) - Answer-during exponential growth the population grows at an
increasing rate
all / most / many offspring survive / birth rate higher than death rate
all / most / many offspring reproduce
each generation produces more offspring that the last
plateau reached eventually / population levels off / birth rate equals death rate
when carring capacity of environment is reached
e.g. when no more food / nutrients / resources available
e.g. when no more space for nesting / space for another purpose is available
e.g. when numbers of predators have increased
e.g. when levels of parasites / diseases have become very high
transitional phase when limits to growth are starting to act
(for exponential growth phase, accept converse examples)
5. Apply the concept of carrying capacity to the struggle for survival resulting from
overproduction of offspring. (5 max) - Answer-the environment can only support a
certain maximum population
this population is sometimes exceeded (due to overproduction of offspring)
food / space / resources are insufficient / competition for resources
some individuals fail to obtain enough
deaths / failure to reproduce / survival of the fittest
population falls to carrying capacity
reference to evolution by natural selection
6. Outline the international system used for naming species of living organisms. (4 max)
- Answer-binomial system
devised by Linnaeus
the first name is the genus name
the second name is the species name
genus name can be abbreviated
genus consists of a group of (closely related) species
upper case for first letter of genus name and the rest of the binomial is lower case
Sequoia sempervirens / other example
first published name is the correct one
local / colloquial names can be very confusing / helps international communication
7. Discuss the definition of the term species. (8 max) - Answer-a species is a group of
organisms
a species shares a common gene pool
showing similar morphology / characteristics
capable of interbreeding
and producing fertile offspring
but dissimilar organisms sometimes interbreed
mule formed by crossing horse and donkey / other example of interspecific hybridisation
interspecific hybrids are sometimes fertile
sometimes organisms that are very similar will not interbreed
Drosophila pseudoobscura and persimilis / other example of sibling species
reference to the problem of defining fossil species
reference to the problem of species that only reproduce asexually
reference to the problem of isolated populations gradually diverging
8. Name the levels and the specific taxa in the hierachy of classification using humans
as an example. (2 max) - Answer-(Kingdom) Animalia
(Phylum) Chordata
(Sub-phylum) Vertebrata
(Class) Mammalia
(Order) Primata
(Family) Hominidae
(Genus) Homo
(Species) sapiens
(4 to 6 correct 1 mark, 7 to 8 correct 2 marks. Award 1 if 7 to 8 correct but incorrect
order.)
9. Describe the relationship between the rise in the concentration of atmospheric carbon
dioxide and the enhanced greenhouse effect. 5 marks - Answer-CO2 is a greenhouse
gas;
increases in CO2 increase/enhance the greenhouse effect;
greenhouse effect is a natural phenomenon but not its increase;
Earth receives short wave radiation from the sun;
reradiated from Earth as longer wave radiation/infra red/heat;
CO2 /greenhouse gases trap/absorb longer wave radiation/infra red/heat;
global warming happened during same time/period as CO2 rise;
CO2 concentration correlated (positively) with global temperature / global temperature
increases as CO2 concentration increases;
(causal) link accepted by most scientists;
no proof that man-made increases in CO2 have caused global warming;
10. Outline the consequences of a global temperature rise on arctic ecosystems. -
Answer-melting of permafrost;
disturbance to food chains/webs/trophic levels;
increased detritus decomposition;
expansion of temperate species / reduced range for arctic species;
changes in distribution of prey species affecting higher trophic levels
increased success of pest species, including pathogens
rise in sea levels;
change in climatic patterns;
loss of ice habitat;
11. Outline the precautionary principle. 5 marks - Answer-those proposing something
must prove that it causes no harm;
before they start to do it;
objectors do not have to prove that there will be harm;
activities that risk/threaten/may cause harm are banned;
trials/tests must be done first;
precautionary principle is applied when possible consequences are severe;
precautionary principle should be used in the case of global warming;
action should be taken to reduce CO2 emissions before proved it is the cause;
another example of implementation of the precautionary principle;
12. Outline the structural differences which characterize bryophytes, filicinophytes,
coniferophytes and angiospermophytes. 9 marks - Answer-bryophytes
small plants
no true stems or leaves
rhizoids only
dominant plant is haploid / is the gametophyte
spores produced in a capsule
non-vascular / lack of xylem and phloem
filicinophytes
seedless
vascular tissues / xylem and phloem
roots
leaves and stems
spores produced in clusters / spores usually produced under the leaves
prothallus / small gametophyte / gametophyte grows independently
coniferophyta
seeds not enclosed in ovary / pericarp / fruit
pollen and ovules
cones
often have narrow leaves / thick waxy cuticle
vascular tissue / xylem and phloem
angiospermophytes
flowers / flowering plants
ovules / seed are enclosed
fruits
xylem vessels
13. List the structural differences between bryophytes and angiospermophytes. 5 marks
- Answer-(Award 1 mark for each structure not found in the other group, up to 5 marks)
bryophytes have a thallus
bryophytes have rhizoids
bryophytes contain archegonia and antheridia
bryophytes main plant is a gametophyte
angiospermophytes have a (complex) vascular system /xylem / phloem
angiospermophytes have a cuticle / bark on their surface
angiospermophytes have lignified tissues
angiospermophytes have flowers
angiospermophytes grow pollen tubes / produce pollen
angiospermophytes have (enclosed) seeds / fruits
angiospermophytes have roots / stems / leaves
angiospermophytes main plant is a gametophyte
14. Briefly explain Darwin`s theory of evolution. 4 marks - Answer-parents produce
more offspring than survive
there is competition among members of a species for survival/struggle for existence
species show variation
certain variations will give a selective advantage/survival of fittest
depending on environment
these variations will be passed on to the next generation
leading to change in allele frequency
15. Outline five types of evidence which support the theory of evolution by natural
selection. 6 marks - Answer-geographic distribution
ring species/other evidence from geographical distribution
biochemistry
cytochrome c/other biochemical evidence
fossils/paleontological
fossilized horse ancestors/other evidence
homologous structures
pentadactyl limb/vertebrate embryos/other
recent observed evolution
resistance to antibiotics/insecticides/heavy metal tolerance/other recent example
16. Outline one modern example of observed evolution by natural selection. 2 marks -
Answer-named example
selective pressure
result
example
beaks of Galapagos finches
competition for food
change in numbers/proportion of birds with different sized beaks
17. Explain the evidence from homologous anatomical structures that supports the
theory of evolution. 6 marks - Answer-homologous structures are various different
structures of the same basic plan
derived from a similar embryonic origin
variations on the basic structure allow different functions
permitting exploitation of differnt ways of life/adaptive radiation
the suggests divergence from a common ancestor
named example of a homologous structure (e.g. pentadactyl limb, flower, birds` beaks)
description of basic structure of this example
variation related to different functions of this example
18. Outline how antibiotic resistance in bacteria can arise in response to environmental
change. 5 marks - Answer-antibiotic resistance can be inherited;
alleles for resistance can be passed from one cell to another by exchange of
plasmids/conjugation;
some varieties are more resistant than others;
bacteria reproduce very rapidly and have high mutation rate;
evolution can occur rapidly;
increased exposure to antibiotics is the environmental change that selects for resistant
varieties;
for example, in hospitals / animal feed / inappropriate prescriptions / not finishing
prescriptions;
bacteria without resistance die / resistant bacteria survive and pass on genes to next
generation;
results in change in genetic makeup of population;
19. Antibiotic resistance in bacteria is an example of evolution in response to
environmental change. Using another example, explain how an environmental change
can lead to evolution. 8 marks - Answer-natural selection (in correct context);
better-adapted individuals survive/more likely to survive;
more reproduction/genes passed on by better adapted individuals;
name of species; (accept even if remainder of answer is invalid)
description of original/decreasing phenotype;
type of environmental change that led to evolution;
consequence of environmental change
description of new/increasing phenotype;
genetic basis of phenotypes;
reason for new phenotype being better adapted;
detail of reason for adaptedness of new phenotype;
The following has been provided as an example answer.
great tit;
bird that lays its eggs in spring;
global warming/climate change;
more caterpillars (on trees) in early spring;
laying eggs earlier in spring;
time of egg laying is (partly) genetically controlled;
eggs laid early hatch at start of period of greatest food abundance;
more young can be fed/young grow faster/fewer deaths;
1. Draw a labelled diagram to show the internal structure of the heart. 6 marks SL -
Answer-Award one mark for each of the following structures clearly drawn and labelled
correctly in a diagram of the heart
left and right ventricles
left and right atria
atrioventricular valves / bicuspid / mitral and tricuspid valves
semilunar valves
aorta and vena cava
pulmonary artery and pulmonary vein
ventricle thicker than atria
left ventricle wall thicker than right ventricle wall
Do not award marks for a diagram with only the ventricles or atria. However, it is not
necessary to show the cordae tendinae.
2. Draw a labelled diagram of the heart showing all four chambers, associated blood
vessels and valves. 5 marks SL - Answer-Award one mark for any two of the following
clearly drawn and correctly labelled.
vena cava
inferior and superior vena cava distinguished
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