Grass Genera of the World
L. Watson and M. J. Dallwitz
Imperata Cyr.
Named for sixteenth century Neapolitan naturalist/pharmacist, Ferrante Imperato.
Including Syllepis Fourn.
Habit, vegetative morphology. Perennial; rhizomatous. Culms 10–150 cm high; herbaceous; unbranched above. Culm nodes hairy, or glabrous. Culm internodes solid. Leaves mostly basal; non-auriculate. Leaf blades broad, or narrow; pseudopetiolate (attenuate), or not pseudopetiolate; without cross venation; persistent; rolled in bud; a fringed membrane.
Reproductive organization. Plants bisexual, with bisexual spikelets; with hermaphrodite florets. The spikelets all alike in sexuality; homomorphic.
Inflorescence. Inflorescence paniculate (silky, spiciform or loosely contracted, the branches with numerous short ‘racemes’); contracted; spicate; espatheate; not comprising ‘partial inflorescences’ and foliar organs. Spikelet-bearing axes short ‘racemes’; with very slender rachides; persistent. ‘Articles’ linear; densely long-hairy (the hairs silvery). Spikelets paired; not secund; consistently in ‘long-and-short’ combinations; unequally pedicellate in each combination. Pedicels of the ‘pedicellate’ spikelets free of the rachis. The ‘shorter’ spikelets hermaphrodite. The ‘longer’ spikelets hermaphrodite.
Female-fertile spikelets. Spikelets 2.5–5 mm long; not noticeably compressed to compressed dorsiventrally; falling with the glumes (falling entire from their pedicels). Rachilla terminated by a female-fertile floret. Hairy callus present. The callus hairs white (silky, silvery).
Glumes two; more or less equal; long relative to the adjacent lemmas; without conspicuous tufts or rows of hairs; pointed, or not pointed; awnless; similar (membranous, with long silvery hairs especially towards the base). Lower glume not two-keeled; convex on the back; not pitted; relatively smooth; 5–7 nerved. Upper glume 3–5 nerved. Spikelets with female-fertile florets only (rarely), or with incomplete florets. The incomplete florets proximal to the female-fertile florets. Spikelets with proximal incomplete florets. The proximal incomplete florets 1; paleate (rarely), or epaleate; male (rarely), or sterile. The proximal lemmas awnless; 0 nerved, or 1 nerved; decidedly exceeding the female-fertile lemmas (rarely, the latter may even be absent); similar in texture to the female-fertile lemmas; not becoming indurated.
Female-fertile florets 1. Lemmas lanceolate to oblanceolate, reduced, sometimes absent; less firm than the glumes (hyaline); not becoming indurated; entire, or incised (denticulate); when entire pointed, or blunt; awnless; hairless; non-carinate; 0–1 nerved. Palea present; relatively long, or conspicuous but relatively short, or very reduced (broad); apically notched; awnless, without apical setae; not indurated (hyaline); nerveless. Lodicules absent. Stamens 2 (Section Imperatella), or 1 (Section Eriopogon). Anthers not penicillate. Ovary glabrous. Styles fused. Stigmas 2; red pigmented.
Fruit, embryo and seedling. Fruit free from both lemma and palea; small; not noticeably compressed. Hilum short. Embryo large. Endosperm containing only simple starch grains. Embryo without an epiblast; with a scutellar tail; with an elongated mesocotyl internode. Embryonic leaf margins overlapping.
Seedling with a long mesocotyl.
Abaxial leaf blade epidermis. Costal/intercostal zonation conspicuous. Papillae absent. Long-cells similar in shape costally and intercostally; of similar wall thickness costally and intercostally. Mid-intercostal long-cells rectangular; having markedly sinuous walls. Microhairs present; panicoid-type; (40–)42–54(–60) microns long; 5.4–6 microns wide at the septum. Microhair total length/width at septum 7.8–8.9. Microhair apical cells (16.5–)18.6–22.5(–24) microns long. Microhair apical cell/total length ratio 0.34–0.47. Stomata common; 24–27 microns long. Subsidiaries triangular. Guard-cells overlapping to flush with the interstomatals. Intercostal short-cells common; in cork/silica-cell pairs, or not paired (solitaries and triplets); silicified, or not silicified. Intercostal silica bodies when present, cross-shaped, or saddle shaped. Costal short-cells conspicuously in long rows. Costal silica bodies ‘panicoid-type’; dumb-bell shaped, or nodular.
Transverse section of leaf blade, physiology. C4; XyMS–. PCR cell chloroplasts with reduced grana; centrifugal/peripheral. Mesophyll with radiate chlorenchyma; traversed by columns of colourless mesophyll cells (rarely), or not traversed by colourless columns. Leaf blade adaxially flat. Midrib conspicuous; having a conventional arc of bundles. Bulliforms present in discrete, regular adaxial groups; associated with colourless mesophyll cells to form deeply-penetrating fans (sometimes linked to the abaxial epidermis by colourles cells); associating with colourless mesophyll cells to form arches over small vascular bundles. All the vascular bundles accompanied by sclerenchyma. Combined sclerenchyma girders present; nowhere forming ‘figures’. Sclerenchyma all associated with vascular bundles, or not all bundle-associated.
Phytochemistry. Leaves without flavonoid sulphates (2 species).
Cytology. Chromosome base number, x = 5 and 10. 2n = 20, 40, 50, and 60. Chromosomes ‘small’.
Taxonomy. Panicoideae; Andropogonodae; Andropogoneae; Andropogoninae.
Distribution, ecology, phytogeography. 8 species; tropical and subtropical. Commonly adventive (I. cylindrica being one of the world’s worst weeds). Helophytic, or mesophytic, or xerophytic; species of open habitats; halophytic, or glycophytic. Often in damp or weedy places, some forms of I. cylindrica in coastal sand.
Holarctic, Paleotropical, Neotropical, Cape, Australian, and Antarctic. Boreal, Tethyan, and Madrean. African, Madagascan, Indomalesian, Polynesian, and Neocaledonian. Euro-Siberian, Eastern Asian, and Atlantic North American. Mediterranean and Irano-Turanian. Saharo-Sindian, Sudano-Angolan, West African Rainforest, and Namib-Karoo. Indian, Indo-Chinese, Malesian, and Papuan. Fijian. Caribbean, Venezuela and Surinam, Amazon, Central Brazilian, Pampas, and Andean. North and East Australian. New Zealand and Patagonian. European. Central Grasslands. Sahelo-Sudanian, Somalo-Ethiopian, and South Tropical African. Tropical North and East Australian and Temperate and South-Eastern Australian.
Hybrids. Intergeneric hybrids procured with Saccharum.
Rusts and smuts. Rusts — Puccinia. Taxonomically wide-ranging species: Puccinia microspora and Puccinia miscanthae. Smuts from Ustilaginaceae. Ustilaginaceae — Sphacelotheca and Ustilago.
Economic importance. Significant weed species: I. brasiliensis, I. cylindrica. I. cylindrica var. major cultivated for papermaking.
References, etc. Leaf anatomical: Metcalfe 1960; this project.
Friday, August 8, 2008
MAHUKAN PANDUAN?
DENGAN BAYARAN HANYA SEBANYAK RM 100.00, KAMI BERIKAN PANDUAN LENGKAP.
EMEL KEPADA :
DATA-DATA SAINTIFIK
Basic Botanical Data and Identification of Lalang Grass Rhizome:
Botanical Source: dry Rhizome of gramineous plant Imperata cylindrica Beauv. var. major(Nees)C.E. Hubb.
Another Source:dry Rhizome of gramineous plant Imperata cylindrica (L.) P. Beauv. var. majar (Nees) C.E. Hubb. ex Hubb. et Vaughan.
Collection: dig out at spring and autumn,wash clean and dried in sun, get rid off fibre and sheath with membrane,bundled. Appearance: column shape,30~60cm length,diameter 0.2~0.4cm. color yellow white or light yellow,slightly blare,verticle furrow surface.
Origin of Lalang Grass Rhizome:
The root of Imperata cylindrica var. major (Nees) C. E. Hubb., a perennial herb, of the Gramineae family. The white segmented root of the plant is rich in water and the juice is sweet. Produced in most areas of China & Malaysia, lalang @ cogongrass root is harvested in spring and autumn. Wash the root clean, dry in the sun, remove fibrous roots and membranous leaf sheaths and cut into lengths for use when raw or after being parched.
Phytochemicals and Constituents of Lalang Grass Rhizome:
Main Constituents: cylindrene,C15H20O2; imperanene,C19H22O5. Other content:21% starch; arundoin;cylindrin;fernenol;simiarenol;coixol;anemonin;palmitic acid;¦Â-sitosterol;daucosterol; p-coumaric acid;limonal acid;glucose; sugar; fructose; xylose; amylum; apple acid(malic acid); oxalic acid,etc.
Pharmacology Actions:
The decoction by oral administration to normal rabbit showed diuretic effect with most significant effect at 5-6 days of medication and not so obvious effect at 20 days.Its diuretic effect may be related to rich potassium in its root. The decoction in vitro showed marked inhibitory action against Shigella flexneri and sonnei. It was proved to have no antipyretic effect. The drug is used as antipyretic, blood purifying agent, hemostatic, diuretic; for the treatment of hematemesis, epistaxis, hematuria, febrile diseases with thirst, oliguria, jaundice, acute respiratory infection with cough, vomiting, stranguria, edema. Act as diuretic; Hemostasia;Anti inflammation.
Properties and functions of Lalang Grass Rhizome:
Sweet in flavor, cold in nature, it is related to the lung, stomach and bladder channels. Functions: Removes heat from the blood to stop bleeding and clears away heat to induce diuresis (increased excretion of urine).
Applications of Lalang Grass Rhizome:
1. To treat bleeding syndromes due to invasion of pathogenic heat into the blood: This food-herb can clear heat from the lung, stomach and urinary-bladder channels and remove heat from the blood to stop bleeding, so it is used for bleeding syndromes due to invasion of pathogenic heat into the blood, such as hemoptysis (expectoration of blood from some part of the respiratory tract), hematemesis (vomiting blood), epistaxis (nosebleed), hematuria (blood in urine), etc. It can be used alone or in combination with other blood-cooling hemostats.
2. To treat strangury (slow and painful spasmodic discharge of urine drop by drop) caused by pathogenic heat, edema, etc.: a) Strangury caused by pathogenic heat: It is used in combination with fiveleaf akebia stem (Caulis Akebiae), talcum, etc., e.g., Maogen Yin in the book "General Collection for Holy Relief". b) Edema and dysuria: It is used together with Asiatic plantain seed (Semen Plantaginis), etc.
3. Miscellaneous: This food-herb can also be used for the treatment of excessive thirst due to pathogenic warmth or heat, vomiting due to stomach-heat, coughing due to lung-heat, jaundice due to damp-heat, etc. Dosage and Administration: Dosage: 9~30grams for grade type;30~60 grams for fresh type. 15-30 g., decoct for oral administration. The dose of the fresh food-herb should be doubled; it is better for use and can be blended into juice for drinking. This food-herb is mostly used when raw but can also be used after being parched to arrest bleeding.
Botanical Source: dry Rhizome of gramineous plant Imperata cylindrica Beauv. var. major(Nees)C.E. Hubb.
Another Source:dry Rhizome of gramineous plant Imperata cylindrica (L.) P. Beauv. var. majar (Nees) C.E. Hubb. ex Hubb. et Vaughan.
Collection: dig out at spring and autumn,wash clean and dried in sun, get rid off fibre and sheath with membrane,bundled. Appearance: column shape,30~60cm length,diameter 0.2~0.4cm. color yellow white or light yellow,slightly blare,verticle furrow surface.
Origin of Lalang Grass Rhizome:
The root of Imperata cylindrica var. major (Nees) C. E. Hubb., a perennial herb, of the Gramineae family. The white segmented root of the plant is rich in water and the juice is sweet. Produced in most areas of China & Malaysia, lalang @ cogongrass root is harvested in spring and autumn. Wash the root clean, dry in the sun, remove fibrous roots and membranous leaf sheaths and cut into lengths for use when raw or after being parched.
Phytochemicals and Constituents of Lalang Grass Rhizome:
Main Constituents: cylindrene,C15H20O2; imperanene,C19H22O5. Other content:21% starch; arundoin;cylindrin;fernenol;simiarenol;coixol;anemonin;palmitic acid;¦Â-sitosterol;daucosterol; p-coumaric acid;limonal acid;glucose; sugar; fructose; xylose; amylum; apple acid(malic acid); oxalic acid,etc.
Pharmacology Actions:
The decoction by oral administration to normal rabbit showed diuretic effect with most significant effect at 5-6 days of medication and not so obvious effect at 20 days.Its diuretic effect may be related to rich potassium in its root. The decoction in vitro showed marked inhibitory action against Shigella flexneri and sonnei. It was proved to have no antipyretic effect. The drug is used as antipyretic, blood purifying agent, hemostatic, diuretic; for the treatment of hematemesis, epistaxis, hematuria, febrile diseases with thirst, oliguria, jaundice, acute respiratory infection with cough, vomiting, stranguria, edema. Act as diuretic; Hemostasia;Anti inflammation.
Properties and functions of Lalang Grass Rhizome:
Sweet in flavor, cold in nature, it is related to the lung, stomach and bladder channels. Functions: Removes heat from the blood to stop bleeding and clears away heat to induce diuresis (increased excretion of urine).
Applications of Lalang Grass Rhizome:
1. To treat bleeding syndromes due to invasion of pathogenic heat into the blood: This food-herb can clear heat from the lung, stomach and urinary-bladder channels and remove heat from the blood to stop bleeding, so it is used for bleeding syndromes due to invasion of pathogenic heat into the blood, such as hemoptysis (expectoration of blood from some part of the respiratory tract), hematemesis (vomiting blood), epistaxis (nosebleed), hematuria (blood in urine), etc. It can be used alone or in combination with other blood-cooling hemostats.
2. To treat strangury (slow and painful spasmodic discharge of urine drop by drop) caused by pathogenic heat, edema, etc.: a) Strangury caused by pathogenic heat: It is used in combination with fiveleaf akebia stem (Caulis Akebiae), talcum, etc., e.g., Maogen Yin in the book "General Collection for Holy Relief". b) Edema and dysuria: It is used together with Asiatic plantain seed (Semen Plantaginis), etc.
3. Miscellaneous: This food-herb can also be used for the treatment of excessive thirst due to pathogenic warmth or heat, vomiting due to stomach-heat, coughing due to lung-heat, jaundice due to damp-heat, etc. Dosage and Administration: Dosage: 9~30grams for grade type;30~60 grams for fresh type. 15-30 g., decoct for oral administration. The dose of the fresh food-herb should be doubled; it is better for use and can be blended into juice for drinking. This food-herb is mostly used when raw but can also be used after being parched to arrest bleeding.
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