Hyparrhenia rufa explained

Hyparrhenia rufa is a species of grass known by the common names jaraguá,[1] jaraguá grass, and giant thatching grass. It is native to Africa and it is widespread in the world as a cultivated forage and fodder for livestock and a naturalized and sometimes invasive species.

Description

This is usually a perennial grass, but it sometimes grows as an annual,[2] and it is variable in form.[1] It usually forms dense tufts of stems from a short rhizome.[3] The stems can be 30 centimeters to 3.5 meters tall.[4] The leaf sheaths enclose the stem at intervals, making it appear banded.[1] Flowering stems have sparse leaves,[1] but grazing increases leaf production.[5] The leaf blades are 30 to 60 centimeters long. The panicle is up to 80 centimeters long and is made up of many short, yellowish or red-tinged racemes all subtended by a narrow, reddish spathe a few centimeters long. The racemes are lined with pairs of spikelets, the red-haired fertile spikelets without stalks and the smaller sterile spikelets on stalks.[2]

The rough-haired seeds are dispersed in the fur of animals,[5] on the wind, and on vehicles and machinery such as graders.[2]

Ecology

In its native range the grass grows in woodlands and seasonally flooded grasslands. It is also tolerant of drought and easily naturalizes in disturbed habitat sites.[2]

Several species of leafcutter ants have been observed foraging on jaragua, including Atta capiguara and A. laevigata.[6]

The grass is susceptible to the plant pathogenic nematodes Helicotylenchus pseudopaxilli, Pratylenchus brachyurus, and Longidorus laevicapitatus.[5] It can also host the phytoplasma bacterium which causes stunting in Napier grass (Pennisetum purpureum), and its infection has been dubbed Hyparrhenia grass white leaf disease.[7]

Feed

This grass is grown in pastures for grazing and is cut for fodder, including hay and silage. It is often used for grazing beef cattle, and it is also used to raise dairy cattle, sheep, and goats. It is not a very nutritious grass, so it is generally supplemented with legumes for nitrogen and molasses, citrus pulp, or bran for energy.[3] One experimental supplement for goats is a mix of groundnut cake and wheat bran.[8] Legumes that have been added as supplements include Cratylia argentea,[9] Erythrina poeppigiana, Gliricidia sepium, and Leucaena leucocephala.[3] The protein content and digestibility of the grass are lowest in the dry season.[9]

As a weed

Where it has been introduced into cultivation it has frequently taken hold in the local habitat, sometimes becoming an invasive component of the flora. On the Llanos of South America it has grown easily on the moist grasslands that resemble those of its original range.[10] It was introduced to the region to feed animals because native grasses are more fibrous and less nutritious.[11] Its ability to outcompete native grasses such as Trachypogon plumosus is thought to come from several factors, which may include higher rate of growth, photosynthesis and germination of seeds, more efficient use of water, and more resources channeled into leaf development. It better tolerates loss of foliage to herbivores.[10] It commonly reproduces vegetatively, but it also produces large amounts of highly viable seed.[5]

This grass is a pyrophyte, well adapted to habitat with an annual wildfire cycle. During the dry season it becomes very flammable.[12] Wildfires in stands of native grasses are patchy and relatively limited. H. rufa forms dense monotypic stands of tall stems in the absence of grazing pressure, and these stands ignite easily, burn intensely, and spread fire into the surrounding forests. Not only does the grass make wildfire events more severe, but it increases in response to fire.[13] Dry parts may be burned away, but living tissue near the ground is not harmed and resprouts immediately; fire damage to an established stand of the grass is "negligible".[5]

Today this species occurs as a weed in most tropical regions. It can be found in North, Central, and South America, many Pacific Islands, Asia, parts of Africa outside its native range,[2] [3] and Australia.[5]

Other uses

This tall grass can be used as thatching, as straw, and as pulp for making paper.[1] In East Africa it is planted as a border grass to prevent erosion.[7]

Notes and References

  1. http://www.fao.org/ag/agp/AGPC/doc/gbase/data/pf000259.htm Hyparrhenia rufa (Nees) Stapf.
  2. http://www.hear.org/pier/species/hyparrhenia_rufa.htm Hyparrhenia rufa.
  3. Heuzé V., Tran G., Hassoun P., Lebas F., 2015. Jaragua (Hyparrhenia rufa). Feedipedia, a programme by INRA, CIRAD, AFZ and FAO. https://www.feedipedia.org/node/426 Last updated on May 11, 2015, 14:30
  4. Barkworth, M. E. Hyparrhenia rufa. Grass Manual. Flora of North America.
  5. http://www.natureserve.org/explorer/servlet/NatureServe?searchName=hyparrhenia+rufa Hyparrhenia rufa.
  6. Nagamoto, N. S., et al. (2009). Differentiation in selection of dicots and grasses by the leaf-cutter ants Atta capiguara, Atta laevigata and Atta sexdens rubropilosa. Sociobiology 54(1), 127–38.
  7. Obura, E., et al. (2011). Hyparrhenia grass white leaf disease, associated with a 16SrXI phytoplasma, newly reported in Kenya. New Disease Reports 24 17.
  8. Betsha, S. and S. Melaku. (2009). Supplementations of Hyparrhenia rufa-dominated hay with groundnut cake-wheat bran mix: effects on feed intake, digestibility and nitrogen balance of Somali goats. Tropical Animal Health and Production 41(6), 927–33.
  9. Ibrahim, M., et al. (2001). Promoting intake of Cratylia argentea as a dry season supplement for cattle grazing Hyparrhenia rufa in the subhumid tropics. Agroforestry Systems 51(2), 167–75.
  10. Simoes, M. and Z. Baruch. (1991). Responses to simulated herbivory and water stress in two tropical C4 grasses. Oecologia 88(2), 173–80.
  11. Baruch, Z. and D. S. Fernández. (1993). Water relations of native and introduced C4 grasses in a neotropical savanna. Oecologia 96(2), 179–85.
  12. Johnson, N. C. and D. A. Wedin. (1997). Soil carbon, nutrients, and mycorrhizae during conversion of dry tropical forest to grassland. Ecological Applications 7(1), 171–82.
  13. D'Antonio, C. M. and P. M. Vitousek. (1992). Biological invasions by exotic grasses, the grass/fire cycle, and global change. Annual Review of Ecology and Systematics 23(1), 63–87.