lichen
Punctelia borreri showing thallus (top) and medulla (bottom). The pinkish-red colour change of the medulla in the C and KC tests indicate the presence of
gyrophoric acid, a chemical feature that helps to distinguish it from similar species in the same genus. Four spot tests are used most commonly to help with lichen identification.
K test The
reagent for the K test is an
aqueous solution of
potassium hydroxide (KOH) (10–25%), or, in the absence of KOH, a 10% aqueous solution of
sodium hydroxide (NaOH, lye), which provides nearly identical results. A 10% solution of KOH will retain its effectiveness for about 6 months to a year. The test depends on salt formation and requires the presence of at least one acidic
functional group in the molecule. Lichen compounds that contain a
quinone as part of their structure will produce a dark red to violet colour. Example compounds include the
pigments that are
anthraquinones,
naphthoquinones, and
terphenylquinones. Yellow to red colours are produced with the K test and some
depsides (including
atranorin and
thamnolic acid), and many β-
orcinol depsidones. In contrast,
xanthones,
pulvinic acid derivatives, and
usnic acid do not have any reaction. Some common and widely distributed lichens that have lichen products with a positive reaction to K include
Xanthoria parietina, which is K+ (red-purple) due to the
parietin (an anthraquinone), and
Dibaeis baeomyces, which is K+ (yellow), due to the
didepside compound
baeomycesic acid.
C test This test uses a saturated solution of
calcium hypochlorite (bleaching powder), or alternatively a dilute solution (5.25% is typically used) of
sodium hypochlorite, or undiluted
household bleach. These solutions are typically replaced daily since they break down within 24–48 hours; they break down even more rapidly when exposed to sunlight (less than an hour) and so are recommended to keep in a dark-coloured bottle. Other factors that accelerate the decomposition of these solutions are heat, humidity, and
carbon dioxide. Colours typically observed with the C test are red and orange-rose. Chemicals causing a red reaction include
anziaic acid,
erythrin, and
lecanoric acid, while those resulting in orange-red include gyrophoric acid. Rarely, an emerald-green colour is produced, caused by reaction with dihydroxy
dibenzofurans, such as the chemical
strepsilin. Another rare colour produced by this test is yellow, which is observed with
Cladonia portentosa as a result of the dibenzofuran usnic acid. Some common and widely distributed lichens that have lichen products with a positive reaction to C include
Lecanora expallens, which is C+ (orange) because of the xanthone
thiophanic acid, and
Diploschistes muscorum, which is C+ (red) because of the didepside
diploschistesic acid.
PD test This is also known as the P test. It uses a 1–5%
ethanolic solution of
para-phenylenediamine (PD), made by placing a drop of ethanol (70–95%) over a few crystals of the chemical; this yields an unstable, light sensitive solution that lasts for about a day. An alternative form of this solution, called Steiner's solution, is much longer lasting although it produces less intense colour reactions. It is typically prepared by dissolving 1 gram of PD, 10 grams of
sodium sulfite, and 0.5 millilitres of
detergent in 100 millilitres of water; initially pink in colour, the solution becomes purple with age. Steiner's solution will last for months. The phenylenediamine reacts with
aldehydes to yield
Schiff bases according to the following reaction: : Products of this reaction are yellow to red in colour. Most β-orcinol depsidones and some β-orcinol depsides will react positively. The PD test, known for its high specificity towards substances that yield K+ yellow or red reactions, has largely replaced the simpler yet less conclusive K test. PD is poisonous both as a powder and a solution, and surfaces that come in contact with it (including skin) will discolour. Some common and widely distributed lichens that have lichen products with a positive reaction to P include
Parmelia subrudecta, which is PD+ (yellow) because of the didepside atranorin, and
Hypogymnia physodes, which is PD+ (orange) because of the depsidone physodalic acid.
KC test This spot test may be performed by wetting the
thallus with K followed immediately by C. The initial application of K breaks down (via
hydrolysis)
ester bonds in depsides and depsidones. If a
phenolic hydroxyl group is released that is
meta to another hydroxyl, then a red to orange colour is produced as C is applied.
Alectoronic acid and
physodic acid produce this colour, while a violet colour results when
picrolichenic acid is present. The CK test is a less commonly used variation that reverses the order of the application of chemicals. It is used in special cases when testing for orange colour produced by
barbatic acid or
diffractaic acid, such as is present in
Cladonia floerkeana.
Lugol's iodine is another reagent that may be useful in identifying certain species.
Hypogymnia tubulosa is a lichen that is KC+ (orange-pink) because of the depsidone physodic acid;
Cetrelia olivetorum is KC+ (pink-red) due to the depsidone alectoronic acid.
Less common tests There are several spot tests that are infrequently used due to their limited applicability, but may be useful in situations where particular lichen metabolites need to be detected, or to distinguish between certain species when other tests are negative. • A 10% solution of
barium hydroxide (Ba(OH)2) gives a violet colour when tested with
diploschistesic acid, a chemical found in some
Diploschistes species. • A saturated solution of
barium peroxide (BaO2), when tested with
olivetoric acid, will turn a yellow colour that becomes green after a few minutes. • A 1% (weight per volume) solution of
ferric chloride (FeCl3) in ethanol produces several possible colours when tested with compounds that have phenolic groups. • The N test uses a 35% solution of
nitric acid, which can be used to distinguish species of
Melanelia from brown species of
Xanthoparmelia. • The S test uses a
sulphuric acid solution (0.5% to 10%) brushed over an
acetone-extracted, dried sample from a lichen thallus, followed by heating over a flame for 30 seconds or until colour develops. A persistent violet to bright pink colour indicates the presence of
miriquidic acid and can be used to distinguish between the two morphologically similar
snow lichens,
Stereocaulon alpinum and
S. groenlandicum without having to resort to more laborious chemical analysis. • The
Beilstein test involves heating a small sample of the substance to be tested on a
copper wire;
halogenated compounds cause a temporary deep green flame colour. • An
anisaldehyde reagent, when heated with acetone extracts, produces a
magenta colour with usnic acid, though
merochlorophaeic acids also give a similar red reaction. ==Performing spot tests==