Date | November 2018 | Marks available | 5 | Reference code | 18N.2.SL.TZ0.6 |
Level | Standard level | Paper | Paper 2 | Time zone | TZ0 / no time zone |
Command term | Outline | Question number | 6 | Adapted from | N/A |
Question
Isolated communities in rural Finland, Hungary and some of the Scottish islands have a high incidence of red-green colour blindness. Describe the inheritance of red-green colour blindness.
The human hand is an example of adaptive radiation. Outline adaptive radiation.
Explain how the human body defends itself against pathogens.
Markscheme
a. sex linked/gene is on the X chromosome ✔
b. allele «for red-green colour blindness» is recessive/colour blindness is recessive trait/disorder ✔
c. heterozygous females are unaffected/carriers ✔
d. XB denotes normal allele and Xb denotes colour blindness allele ✔
e. more frequent in males because they only have one X chromosome ✔
f. 50 % chance of colour blindness in sons whose mother who is heterozygote/XBXb ✔
Accept any other letter for the alleles.
Award mpb, mpc, mpd and mpf if these points are clearly made on a Punnett grid.
a. «happens in a group of species that» evolve from a common ancestor ✔
b. evolution «of a structure» in different ways ✔
c. for different functions ✔
d. common features remain «despite the differences» ✔
e. homologous structures are evidence «of adaptive radiation»
Must see “homologous” ✔
f. an example of adaptive radiation ✔
g. example of specific adaptation ✔
h. second description of a specific adaptation ✔
example 1:
f. pentadactyl limb
g. human hand is adapted for grasping/climbing/manipulation
h. front limb of mole is adapted for digging»
example 2:
f. «Darwin’s» finches’/birds’ beaks
g. nectar feeding has a long/thin beak
h. seed feeding has a short/stout beak
a. skin/mucous membranes primary/first defence against pathogens ✔
b. tears/mucus contain enzymes/lysozymes which destroy pathogens ✔
c. stomach/skin/some mucus produces acid which kills pathogens ✔
d. phagocytic white blood cells/phagocytes/macrophages ingest pathogens
OR
lysosomes in phagocytes/macrophages release enzymes that digest pathogens ✔
e. phagocytes/macrophages give non-specific immunity «to diseases» ✔
f. specific immunity provided by lymphocytes ✔
g. lymphocytes divide to produce clones «of plasma cells» ✔
h. plasma cells/lymphocytes produce antibodies ✔
i. antibodies are specific to a pathogen/antigen ✔
j. memory cells provide immunity against future attacks by same pathogen ✔
k. blood clotting/fibrin closes opening in the body so pathogens cannot enter✔
Accept leukocytes instead of white blood cells