Alkaloids are among the most important and best-known
secondary metabolites, i.e. biogenic substances not directly involved in the normal
growth,
development, or
reproduction of the organism. Instead, they generally mediate ecological
interactions, which may produce a selective advantage for the organism by increasing its
survivability or
fecundity. In some cases their function, if any, remains unclear. An early hypothesis, that alkaloids are the final products of
nitrogen metabolism in plants, as
urea and
uric acid are in mammals, was refuted by the finding that their concentration fluctuates rather than steadily increasing. Such alkaloid-related substances as
serotonin,
dopamine and
histamine are important
neurotransmitters in animals. Alkaloids are also known to regulate plant growth. One example of an organism that uses alkaloids for protection is the
Utetheisa ornatrix, more commonly known as the ornate moth. Pyrrolizidine alkaloids render these larvae and adult moths unpalatable to many of their natural enemies like coccinelid beetles, green lacewings, insectivorous hemiptera and insectivorous bats. Another example of alkaloids being utilized occurs in the
poison hemlock moth (
Agonopterix alstroemeriana). This moth feeds on its highly toxic and alkaloid-rich host plant
poison hemlock (
Conium maculatum) during its larval stage.
A. alstroemeriana may benefit twofold from the toxicity of the naturally occurring alkaloids, both through the unpalatability of the species to predators and through the ability of
A. alstroemeriana to recognize
Conium maculatum as the correct location for oviposition. A
fire ant venom alkaloid known as
solenopsin has been demonstrated to protect queens of
invasive fire ants during the foundation of new nests, thus playing a central role in the spread of this pest ant species around the world. == Applications ==