Mistletoe species grow on a wide range of
host trees, some of which experience side effects including reduced growth, stunting, and loss of infested outer branches. A heavy infestation may also kill the host plant.
Viscum album successfully parasitizes more than 200 tree and shrub species. All mistletoe species are
hemiparasites because they do perform some
photosynthesis for some period of their life cycle. However, in some species its contribution is very nearly zero. For example, some species, such as
Viscum minimum, that parasitize
succulents, commonly species of
Cactaceae or
Euphorbiaceae, grow largely within the host plant, with hardly more than the flower and fruit emerging. Once they have germinated and attached to the circulatory system of the host, their photosynthesis reduces so much that it becomes insignificant. Most of the Viscaceae bear evergreen
leaves that
photosynthesise effectively, and photosynthesis proceeds within their green, fleshy stems as well. Some species, such as
Viscum capense, are adapted to
semi-arid conditions and their leaves are
vestigial scales, hardly visible without
detailed investigation. Therefore, their photosynthesis and transpiration only take place in their stems, limiting their demands on the water supply of their host, but also limiting their intake of
carbon dioxide for photosynthesis. Accordingly, their contribution to the metabolic balance of their host becomes trivial and the idle parasite may become quite yellow or golden as it grows, having practically given up photosynthesis. and the genus
Arceuthobium (dwarf mistletoe; Santalaceae) that has reduced photosynthesis; as an adult, it manufactures only a small proportion of the
sugars it needs from its own photosynthesis, but as a
seedling actively photosynthesizes until a connection to the host is established. Some species of the largest family, Loranthaceae, have small,
insect-pollinated flowers (as with Santalaceae), but others have spectacularly showy, large,
bird-pollinated flowers. Most mistletoe seeds are spread by birds who eat the 'seeds' (in actuality
drupes). Of the many bird species that feed on them, the
mistle thrush is the best-known in Europe, the
phainopepla in southwestern North America, and
Dicaeum flowerpeckers in Asia and Australia. Depending on the species of mistletoe and the species of bird, the seeds are regurgitated from the crop, excreted in their droppings, or stuck to the bill and causing the bird to have to wipe it off onto a branch. The seeds are coated with a sticky material called
viscin. Some viscin remains on the seed and when it touches a stem, it sticks tenaciously. The viscin soon hardens and attaches the seed firmly to its future host, where it germinates and its haustorium penetrates the sound bark. Specialist mistletoe eaters have adaptations that expedite the process; some pass the seeds through their unusually shaped digestive tracts so fast that a pause for defecation of the seeds is part of the feeding routine. Others have adapted patterns of feeding behavior; the bird grips the fruit in its bill and squeezes the sticky-coated seed out to the side. The seed sticks to the beak and the bird wipes it off onto the branch and consumes the remainder of the fruit. An example of a bird with this adapted method is the
blackcap (
Sylvia atricapilla). Biochemically, viscin is a complex adhesive mix containing
cellulosic strands and
mucopolysaccharides. Once a mistletoe plant is established on its host, it usually is possible to save a valuable branch by pruning and judicious removal of the wood invaded by the
haustorium, if the infection is caught early enough. Some species of mistletoe can regenerate if the pruning leaves any of the haustorium alive in the wood. == Toxicity ==