Cassytha ciliolata Fruit Flower Buds Haustoria IMG 3889s

''Cassytha'' is a genus of some two dozen species of Obligate parasite, obligately Parasitic plant, parasitic vines in the family Lauraceae. Superficially, and in some aspects of their ecology, they closely resemble plants in the unrelated genus ''Cuscuta'', the dodders.Weber, J. Z. A TAXONOMIC REVISION OF CASSYTHA (LAURACEAE) IN AUSTRALIA. J. Adelaide Bot. Gard. 3(3): 187-262(1981
JSTOR
/ref> When fruit and flowers are absent in the field, the physical resemblance is so close that few people without technical training can discern the difference. In this respect and in their ecology the two genera present a spectacular example of convergent evolution.Nickrent, D. L. 2002. Phylogenetic Origins of Parasitic Plants. Chapter 3, pp. 29–56 In J. A. López-Sáez, P. Catalán and L. Sáez [eds.], Parasitic Plants of the Iberian Peninsula and Balearic Islands. Mundi-Prensa, Madrid. Nonetheless, Daniel Lee Nickrent, Nickrent comments that "''Cassytha'' is uneqivocally assigned to Lauraceae based on (both) morphological and molecular data."The Parasitic Plant Connection: Phylogenetic Relationships of Parasitic Flowering Plants
/ref> In its divergence from Habit (biology), habits typical of the Lauraceae, ''Cassytha'' also presents examples of mosaic evolution Several species of ''Cassytha'' are regarded as pests in various regions, though as a rule they are not as serious a problem as the true dodders. Some even yield a welcome harvest of fruit, or are valued for their perceived medicinal or aphrodisiac properties, partly because, like many members of the Lauraceae, some are fragrant when bruised. Their stems make useful strings for construction of thatched roofs and certain styles of Lei (garland), lei and the like.

Common names and confusion

Probably the most useful common names for ''Cassytha'' species are laurel dodder or dodder laurel, because they look like dodder and are fragrant members of the Laurus, laurel family, Lauraceae. The name love vine has merit because some species, in particular ''C. filiformis'', are regarded as aphrodisiacs in the Caribbean region.Esbaugh, W. Hardy; McClure, Susan A. & Bolyard, Judith L. Bush Medicine Studies, Andros Island, Bahamas. Proceedings of the first symposium on the botany of the Bahamas 11–14 June 1985. Ed. Robert R. Smith., San Salvador, Bahamas. In practice, the confusion between the various species of ''Cassytha'' and ''Cuscuta'' is so unavoidable that their common names are more or less interchangeable. Practically all the common names for dodder accordingly are widely applied in error to ''Cassytha'' as well, but as a matter of convenience in Florida at least, where members of both groups of plants are present as agricultural pests, a publication of the Department of Agriculture adopts the names woe vine for ''Cassytha'' and dodder for ''Cuscuta''.Haynes, Alan R., Coile, Nancy C., Schubert. Timothy S.; "Comparison of Two Parasitic Vines: Dodder (Cuscuta) and Woe Vine (Cassytha)". Botany Circular No. 30. Fla. Dept Agric. & Consumer Services January/February 1996. Division of Plant Industry

Context and distribution

Though the Lauraceae constitute a large family, with thousands of species in tens of genera, ''Cassytha'' is its only known parasitic genus, and its climbing habit also is atypical of the family; most Lauraceae are woody shrubs or trees. The genus at one time was assigned its own family, Cassythaceae, but currently agreement on its inclusion into the Lauraceae is general. As currently defined, ''Cassytha'' has a wide distribution for a genus of so few species. Most are native to Australia (including temperate regions, where they are the only native members of the family), but a few are indigenous to Africa, southern Asia, various islands, and regions in the Americas. Some species seem to have been spread inadvertently by humans and probably by birds as well, and now occur on several continents. ''C. filiformis'', for example, grows in Hawaii (where it is said to be indigenous),Nelson, Scot C. "Cassytha filiformis". Plant Disease July 2008 PD-42 Department of Plant and Environmental Protection Sciences. Cooperative extension service. University of Hawaii at Manoa. www.ctahr.hawaii.edu/oc/freepubs/pdf/PD-42.pdf the Australasian realm, northern South America, Central America, southern Florida, Japan, and South Africa.Arnold T.H., de Wet B.C. (Eds), Plants of Southern Africa: Names & Distribution, MEMOIRS OF THE BOTANICAL SURVEY OF SOUTH AFRICA No. 62, Pub.National Botanical Institute, South Africa.1993 It also appears to have been transported to many major islands, and now is effectively pantropical.

Botanical details

The genus is cited as ''Cassytha'' L., ''Sp. Pl.'' 35 (1753), which means that Carl Linnaeus formally described it in 1753 in his monumental work, ''Species Plantarum''. Otto Stapf (botanist), Otto Stapf updated the work in ''Flora Capensis'' in 1912. ''Cassytha'' is unusual among Lauraceae in at least two respects: they are Vine, scandent herbaceous plants, and they are obligate parasites. Their stems are thread-like or wiry, and like most twining species, they twine round the host clockwise as seen from the source of growth. The vines generally turn yellowish once they have established themselves on a productive host because they then reduce or stop their production of chlorophyll. ''Cassytha'' species are stem parasites, adhering to their hosts by Wiktionary:uniseriate, uniseriate Haustorium, haustoria that generally are small and oblong. Their leaves are without stipules, alternate, simple, and easily overlooked, being minute and scale-like. Various species of ''Cassytha'' bear flowers in racemes, spikes, or Pseudanthium, heads. Depending on the species, the flowers are Sessility (botany), sessile or Pedicel (botany), pedicellate. The individual flowers are Hermaphrodite, hermaphroditic and bracteolate, each being attended by a bract and two smaller bracteoles. In general, the flowers are small, so much so that in many species they are inconspicuous. The perianth has six tepals, the three outer tepals smaller than the inner. The 12 stamens are in four whorls. The Receptacle (botany), receptacle of the fertilised fruit gradually envelops the ovary, becoming the fleshy part of the ripe fruit, which often retains the dried remnants of the perianth at its tip. In effect, the resulting fruit structure is a tiny drupe. The Fruit anatomy, endocarp is bony and plays an important part in the reproductive process, both in protecting the seed while the fruit is eaten and in inhibiting germination until the endocarp decays, thereby permitting long-lived soil seed banks to accumulate.Dyer, R. Allen, "The Genera of Southern African Flowering Plants". , 1975 List of accepted ''Cassytha'' species. - Unresolved species marked with * Some species of the cactus genus ''Rhipsalis'' once were assigned to ''Cassytha'' in an error arising from the resemblance in Morphology (biology), habitus. An unfortunate consequence has been that the homonym (botany), homonym ''Cassytha'' Philip Miller, Mill. (1768) is often mentioned as a synonym (botany), synonym of the genus ''Rhipsalis'', although this perception is incorrect, since the generic name ''Cassytha'' had already been applied to a completely different genus in a different plant family. The morphology and ecology of ''Cassytha'' are so atypical of the family Lauraceae, they have been the subject of molecular genetic research to confirm their taxonomic relationships. Though special aspects to their phylogeny certainly are under debate, their assignment to the Lauraceae generally is regarded as undoubtedly correct.

Reproduction and ecology

''Cassytha'' fruits are ecologically valuable to some fruit-eating birds. The birds either regurgitate the seeds or pass them through their gut. Mammals, for example Australian Macropodidae, macropods, also transport the seeds in their gut. The bony endocarp that protects the seed in its passage through animal gut also prevents the seed from immediate germination even if conditions are favourable. Instead, the seeds survive on or in the ground till decay weakens the endocarp sufficiently to permit moisture to enter and germination to begin. This process is not deterministic, so some of the seeds might remain inactive in the soil seed bank for many years before they germinate at unpredictable intervals. Accordingly, once soil is infested with large numbers of seeds, eradication of the population generally requires considerable time. On germination, the seedlings behave as aggressive parasites; they twist about till they find a host, and those that fail to locate hosts soon die, typically in months. Seedlings and actively growing shoots are green at first. Once their haustoria are fully established on a suitable host, the plants lose most of their chlorophyll and generally become yellowish or orange, and the ''Cassytha'' plant abandons its connections with its root, which soon dies. ''Cassytha'' species are Perennial plant, perennials; although they attack practically whatever host plants they encounter, including suitable annuals. They seem to show some preference for woody perennial hosts. Consequently, they often find themselves on seasonally dormant host species. When that happens and the supplies from the host largely dry up, the stems of most species of ''Cassytha'' turn green until the host once again becomes productive. This suggests that such species are at least marginally Photosynthesis, photosynthetic, but do not invest resources unnecessarily when photosynthesis is not required. ''Cassytha'' species do produce some of their own nutrients while green, so their chlorophyll production is both actual and functional. Technically, ''Cassytha'' could be regarded as Parasitic plant, hemiparasitic rather than Parasitic plant, holoparasitic, but their own autotrophic contributions are plainly limited to what it takes to tide over temporary shortages. When all the hosts of a plant die, so does the parasite, so whatever the details of their biology, ''Cassytha'' species certainly are unconditionally obligately parasitic. No doubt their lack of a persistent root system dooms any ''Cassytha'' plants whose hosts supply insufficient water and mineral nutrients. The effects of ''Cassytha'' on host plants varies. They are not very selective and they parasitise hosts from many plant families, often overwhelming a host so drastically as to kill it. Even when host plants survive, a heavy infestation commonly causes drastic reduction in vigour and reproductive capacity. Accordingly, some species of ''Cassytha'' have been examined as potential weed control agents, and others are regarded as agricultural pests in their own right. Although ''Cassytha'' species are vigorous parasites, they are less aggressive, and correspondingly less serious agricultural pests, than ''Cuscuta'' species; ''Cuscuta'' species generally grow several times faster, produce more seed, and germinate more rapidly, though their seeds are less persistent in the soil. Among their various ecological effects, ''Cassytha'' species act as Vector (epidemiology), vectors, though not exclusive vectors, for various plant diseases. They may pass various Fungus, fungi, ''Agrobacterium'' species, viruses, and other pathogens to host plants, or from one host plant to another.

Classification

Due to its herbaceous and parasitic habit, distinguishing the genus from all other Lauraceae, ''Cassytha'' has historically presented a problem for classification. Most early systems of classification based on morphological characters divided the Lauraceae into two subfamilies: Cassythoideae and Lauroideae;van der Werff H & Richter HG. 1996. Toward an improved classification of Lauraceae. ''Annals of the Missouri Botanical Garden'
83: 409-418.
/ref> however, more recent molecular data disputes this division. Based on the ''trn''K intron, a common phylogenetic marker for classifying angiosperms, Rohwer and Rudolph (2005) created a phylogeny of the Lauraceae. They nested ''Cassytha'' within the family, more closely related to ''Caryodaphnopsis,'' and placed both as sister to the tribe Cryptocaryeae, one of the three tribes of the Lauroideae''.'' More recently, embryological evidence, specifically the development of the anther Tapetum (botany), tapetum, substantiated the close relationship of the two genera, but nested them within the tribe Cryptocareae. Ultimately, the exact phylogeny of ''Cassytha'' is still in dispute; however, its non-Basal (phylogenetics), basal placement within the Lauraceae is undoubtedly accurate.

Uses

''Cassytha'' is best known for its parasitic habit, and the various species are neither prominent as crop plants, nor as beneficial plants. Species within the genus do have minor uses in rural communities globally. For example, the fruit of various species are eaten, both by birds and by humans, and ''C. melantha'' in particular has been documented as a wild-harvested Australian indigenous food. The flesh of fruit is very sticky and chewy, and has a taste reminiscent of Feijoa sellowiana, feijoa. In the Caribbean region, ''C. filiformis'' is one of the plant species known as love vine, because it has a reputation as an aphrodisiac. Plants in the genus contain low concentrations of several alkaloids that have not yet been shown to be of great value, but do have biochemical properties worthy of investigation.Stévigny C, Block S, De Pauw-Gillet MC, de Hoffmann E, Llabrès G, Adjakidjé V, Quetin-Leclercq J. Cytotoxic aporphine alkaloids from Cassytha filiformis. Planta Med. 2002 Nov ;68(11):1042-4. Together with the fragrant essential oils in some species, the alkaloids might be relevant to the wide application of ''Cassytha'' species in folk medicine and in traditional teas.Watt, John Mitchell; Breyer-Brandwijk, Maria Gerdina: The Medicinal and Poisonous Plants of Southern and Eastern Africa 2nd ed Pub. E & S Livingstone 1962 Though they are not of commercial interest as fibre crops, suitably prepared vines from some ''Cassytha'' species are of value in rural communities as a source of cord. They may be used for binding bundles of materials such as thatch, or for stringing decorative festoons.