Coprosma robusta

Coprosma robusta, commonly known as karamu, is a flowering plant in the family Rubiaceae. It can survive in many climates, but is most commonly found in coastal areas, lowland forests, or shrublands. Karamu can grow to be around 6 meters tall, and grow leaves up to 12 centimeters long. Karamu is used for a variety of purposes in human culture. The fruit that karamu produces can be eaten, and the shoots of karamu are sometimes used for medical purposes.

Coprosma robusta
Scientific classification
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C. robusta
Binomial name
Coprosma robusta
Raoul

Identification

Species description

Karamu is a large bushy shrub that grows up to 6 meters tall.[1] Branches are stout with no hair.[2] Domatia (small holes on the back of the leaf at the intersection of veins) and stipules are significant characteristic features of Coprosmas.[3] Karamu stipules are black, hairless and obtuse with slightly serrated margin that are united at the base [2]

Leaves

The glossy leaves of karamu range from 5 to 12 centimeters long, with elliptic-oblong shape and acute or obtuse leaf apex and with obvious veins.[4] Leaves are dark green on the blade and light green on the back,[2] are thick, and the midrib is not raised on the upper surface.[1]

Flower

Flowers are small and white, axillary, dense, have four lobes and have a different appearance in male and females. Male flowers are dense, glomerules with a campanulate shaped corolla and have four stamens; female flowers are compound with a tubular shaped corolla. Stigmas are obvious.[4] The best flowering period is between August and September.[2]

Fruit

Karamu in fruit

Fruit are often dark orange-red to red, oblong to narrow ovate drups.[4] The best fruiting period is between April and May.[2]

Geographic Distribution and habitat

Natural global range

Karamu is endemic to New Zealand.[4] However, it is gradually becoming naturalized in areas of the south-east coast of Australia such as Victoria and Tasmania and has been rated as a weed threat there.[5][6]

New Zealand range

It is widely distributed across New Zealand in both the North and South Islands. On the Chatham Islands between Waitangi and Owenga, there is a small area where karamu has become naturalized.[2] They can often be observed naturally in lowland forest. Judging from the distribution map on New Zealand Plant Observation,[2] the distribution of karamu increases with the differentiation in lower altitude which means more karamu in the North Island.

In Canterbury, karamu is found on Banks Peninsula in fragments of regenerating native bush and bush remnants. Additionally it is also found in forest margins and edges of the montane and lowland forests in the southern alps at the start of the Canterbury planes. Karamu can also be found in the urban environment of many Christchurch city green spaces (e.g. park like Riccarton Bush).[7]

Habitat preferences

Karamu can be widely found near coastal, lowland and lower montane areas. It can also grow within shrub lands and expansive areas within dense trees such as lowland forest.[2] However, the population decreases in lowland forest such as beech and kahikatea forests.[4] Normally karamu is a hardy plant that can adapt to infertile soils, poorly drained and exposed lands. It can also grow in a large range of altitude varying from 0–1200 meters under full sun to shady, windy and frosty circumstances.

Life cycle/Phenology

In New Zealand the flowering season of karamu is from winter (approximately from July) to summer (ends around December). Male and female flowers are separated which is called dioecious. Seeds mature by about April and start germinating soon afterwards and doesn't leave a long lasting seed bank.[8][9]

The seed is largely dispersed by birds which eat the fruit. Due to its hardy characteristics, it is easy growing from seed even on open sites.[10] Again, as mentioned before, the best season for C. robusta's fruiting is between April and May. It would finally grow up to six meters high and will normally act as a secondary succession plant during this process.[10]

Growing conditions / Prey / Predators

Growing conditions

Karamu is an extremely hardy plant that can grow in a large range of environmental conditions from full sun to shady, from dry to moist, and can tolerate frost and wind. The mature fruit can endure a minimum temperature to -8 °C and the leaves can endure a minimum temperature -7 °C before they get irretrievably damaged.[11] It grows best in a moist soil[5] which is not too acid, although they have the ability to live in poor soils.[12] They can also be found in coastal conditions, lowland scrub, swamps and rock associations.[13]

Predators

Herbivorous mammals such as goats (Capra hircus) and deer (Cervus elaphus) have a severe impact on karamu, and hares (Lepus timidus) and rabbits (Oryctolagus cuniculus) eat the seedlings.(Brockie, 1992). Additional consumers of karamu are Batracomorphus, Batracomorphus adventitiosus, leafhoppers and Membracoidea.[14]

Interaction

Birds which disperse karamu seeds include native bellbirds (Anthornis melanura) and Tuis (Prosthemadera novaeseelandiae), indigenous silvereyes (Zosterops lateralis), and introduced blackbirds (Turdus merula), and song thrushes (Turdus philomelos).[15] Seeds can be dispersed a long way and into areas of more mature forest.[7] According to the database in Encyclopedia of Life,[2] additional species that interact karau are Acalitus, Acalitus cottieri, Eriophyid mites, European greenfinch, and goldfinches.

Karamu and mychorrhizal fungi can make a symbiotic mutualism in roots system. Because mychorrhizal fungi can supply water and nutrients to the plant. Experiments with karamu shows its growth is assisted by the presence of mychorrhizal fungi assuming there is sufficient phosphorus in the soil.[16]

Parasites

Karamu will sometimes act as a host plant to support other plants including Posocarp,Totara and yellow-wood family.[2]

Cultural uses

Medicinal uses

Juvenile shoots can be applied to release inflammation or bladder problems if boiled and then the liquid drunk. The leaves are believed by Maori to have the ability to deal with kidney troubles and bark can be and used to treat stomachache and vomiting.[17]

Food supply

The mature berries of karamu can be eaten as food, and its leaves used to make a tea drink.[17]

Dyes

Karamu is rich in dying properties including alizarin and purpurin. Traditionally Maori used it to dye flax (Phormium) fibers yellow.[4] Sometimes leaves of karamu were put on stones and dye the food and preserve them after a hangi.[17]

Traditions

Baptists used the leaves in a ceremony and green karamu branches will be held by tohunga in tohi for newly born babies.[17]

Revegetation and plantings

Karamu is noted for its quick bushy growth and for this reason is commonly cultivated and frequently used for revegetation projects.[7]

Interesting facts

Coprosma robusta is one of the first seven Coprosma species that were collected by Joseph Banks with Cook's voyage to New Zealand. At that time, Coprosma robusta was called Pelaphia lata.[4]

In recent years, there is a report showing the sex ratio of karamu in the Riccarton Bush in Christchurch. The sex ratio of population of is female-biased with 70% of the flowering plants being female. This female-biased ratio differs from the few other counts of sex ratios in New Zealand species of Coprosma. That could be influenced by a number of factors, including the pollen and seed fecundity of the two sexes and factors affecting their sexual maturity and mortality. That is interesting because karamu is often male-biased in sex ratios. This differential survival of the sexes in long-lived species is usually attributed to differences in reproductive effort between male and female plants. In particular, the energy cost of producing ovules and fruit in female plants is greater than the cost of male flowers producing pollen. Female-biased sex ratios also occur as a consequence of differential fertilization and genetic differentiation of sex chromosomes.[8]

gollark: If the dataset consists of people who are able to spell and grammar somewhat, then the model should also do that.
gollark: You could probably do something like that.
gollark: The ceramic server almost certainly isn't big enough of a dataset to train from scratch, nor do they have the GPUs for that, presumably.
gollark: The base GPT-2 models can do that. So if they finetuned one and didn't accidentally erase all its previous knowledge, it should also do that.
gollark: Generally they can manage to use basically-correct grammar and spelling, even if the semantics are wrong.

References

  1. Poole, A.L.; Adams, N.M. (1990). Trees and Shrubs of New Zealand. Wellington, New Zealand: DSIR Publishing.
  2. "Coprosma robusta". New Zealand Plant Conservation Network. Retrieved 1 April 2015.
  3. Dawson, J; Lucas, R (2000). Nature Guide to the New Zealand Forest. Auckland, New Zealand: Random House.
  4. Oliver, W.R.B (1935). The Genus Coprosma. Honolulu, Hawaii: The Museum.
  5. "Weed Risk Assessment: Coprosma robusta" (PDF). Tasmanian Government. Retrieved 1 April 2015.
  6. "Karamu (Coprosma robusta)". vro.agriculture.vic.gov.au. Retrieved 2019-07-27.
  7. Burrows, C.J. (1995). "Germination behaviour of the seeds of the New Zealand species". New Zealand Journal of Botany. 33 (2): 257–264. doi:10.1080/0028825x.1995.10410489.
  8. Heenan, P.B.; Molloy, B.P.J; Bicknell, R.A.; Luo, C. (2003). "Levels of apomictic and amphimictic seed formation in a natural population of Comprosma robusta (Rubiaceae) in Riccarton Bush, Christchurch, New Zealand". New Zealand Journal of Botany. 41 (2): 287–291. doi:10.1080/0028825x.2003.9512847.
  9. Eagle, A (1986). Eagle's trees and shrubs of New Zealand volume one revised. Auckland, New Zealand: Collins books.
  10. Williams, P.A.; Buxton, R.P. (1989). "Response to reduced irradiance of 15 Species of native and adventive shrub and tree seedlings from eastern Canterbury" (PDF). New Zealand Journal of Ecology. 12: 95–101.
  11. Bannister, P; Lee, W (1989). "The frost resistance of fruits and leaves of some Coprosma species in relation to altitude and habitat". New Zealand Journal of Botany. 27 (3): 477–479. doi:10.1080/0028825x.1989.10414128.
  12. Mckay, A.C.; McGill, C.R.; Fountain, D.W.; Southward, R.C. (2002). "Seed dormancy and germination of a panel of New Zealand plants suitable for re‐vegetation". New Zealand Journal of Botany. 40 (3): 373–382. doi:10.1080/0028825X.2002.9512798.
  13. Clarke, A (2007). The Great Sacred Forest of Tane: a natural pre-history of Aotearoa. Auckland, New Zealand: Reed Books.
  14. "Coprosma robusta". Encyclopedia of Life. Retrieved 1 April 2015.
  15. Karl, B.J; Williams, P.A (1996). "Fleshy fruits of indigenous and adventive plants in". New Zealand Journal of Ecology. 20: 127–145.
  16. Baylis, G (1967). "Experiments on the ecological significance of phycomycetous mycorrhizas". New Phytologist. 66 (2): 231–243. doi:10.1111/j.1469-8137.1967.tb06001.x.
  17. "Maori Plant Use: Coprosma Robusta". Landcare Research. Retrieved 1 April 2015.
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