Register      Login
Crop and Pasture Science Crop and Pasture Science Society
Plant sciences, sustainable farming systems and food quality
Shopping Cart: ( empty )
You are here: Home > Journals > CP > CP15380 > Fulltext
RESEARCH ARTICLE
Contents Vol 68(3)

Abiotic stress tolerance of kikuyu (Cenchrus clandestinus) and some related grasses and potential of kikuyu for agricultural and urban environments

Duncan Fraser A B , Peter Sharp A , Nabil Ahmad A , Brett Morris A and Richard Trethowan A
+ Author Affiliations
- Author Affiliations

A Plant Breeding Institute, Faculty of Agriculture and Environment, University of Sydney, NSW 2570, Australia.

B Corresponding author. Email: duncan.fraser@sydney.edu.au

Crop and Pasture Science 68(3) 285-296 https://doi.org/10.1071/CP15380
Submitted: 13 November 2015  Accepted: 20 February 2017   Published: 29 March 2017

Abstract

The introduction of kikuyu (Cenchrus clandestinus (Hochst. ex Chiov.) Morrone) into Australia in 1918 has seen it become established and adapted to several geographic regions in a wide range of ecologies and environmental situations. After it naturalised to local conditions, researchers and farmers recognised the value of kikuyu in marginal and previously unproductive sites, where forage quality and quantity made this species popular with dairy farmers and pastoralists. Its versatility and prostrate, mat-forming characteristics also led to the adoption of kikuyu by local governments, homeowners and sporting organisations in urban environments as turf. Kikuyu has the ability to alleviate soil contamination and remediate soils, thus enhancing the use of previously unproductive land. However, the aggressive growth habit of the species, considered a problem in certain regions of the world, has led to a noxious weed classification in some states of the USA. This review includes information on expected changes to world agricultural and urban environments and the potential expanded role of kikuyu. The origin of kikuyu grass, genetic variability, tolerances to soil salinity and drought, and potential for genetic improvement are also discussed.

Additional keywords: genotype diversity, kikuyu grass, salt and drought tolerance, untapped breeding potential.


References

Atlas of Living Australia. Cenchrus clandestinus (Hochst. ex Chiov.) Morrone. NCRIS, Australian Government, Canberra, ACT. Available at: http://bie.ala.org.au/species/http://id.biodiversity.org.au/node/apni/29021245 (accessed 10 March 2017).

Barnard C (1972a) Pennisetum clandestinum Hochst. ex. Chiov. (kikuyu grass) cv. Breakwell. In ‘Register of Australian herbage plant cultivars’. 2nd edn (CSIRO: Melbourne)

Barnard C (1972b) Pennisetum clandestinum Hochst. ex. Chiov. (kikuyu grass) cv. Whittett. In ‘Register of Australian herbage plant cultivars’. 2nd edn (CSIRO: Melbourne)

Barnard C (1983a) Pennisetum clandestinum Hochst. ex. Chiov. (kikuyu grass) cv. Crofts. Journal of the Australian Institute of Agricultural Science 49, 236–238.

Barnard C (1983b) Pennisetum clandestinum Hochst. ex. Chiov. (kikuyu grass) cv. Noonan. Journal of the Australian Institute of Agricultural Science 49, 238–239.

Barrett-Lennard EG (2002) Restoration of saline land through revegetation. Agricultural Water Management 53, 213–226.
Restoration of saline land through revegetation.Crossref | GoogleScholarGoogle Scholar |

Barrett-Lennard EG, Malcolm CV, Bathgate A (2003) ‘Saltland pasture in Australia. A practical guide.’ 2nd edn. Land, Water & Wool Sustainable Grazing on Saline Lands Sub-program 1. (Land & Water Australia: Canberra, ACT)

Beard JB (1973) ‘Turfgrass science and culture.’ (Prentice Hall: Upper Saddle River, NJ, USA)

Beard JB, Green RL (1994) The role of turfgrass in environmental protection and their benefits to humans. Journal of Environmental Quality 23, 452–460.
The role of turfgrass in environmental protection and their benefits to humans.Crossref | GoogleScholarGoogle Scholar |

Bell MJ, Cullen BR, Eckard RJ (2011) The production of perennial ryegrass and kikuyu pastures in south-eastern Australia under warmer and drier future climate scenarios. In ‘MODSIM2011. Proceedings 19th International Congress on Modelling and Simulation’. 12–14 December 2011, Perth, W. Aust. (Eds F Chan, D Marinova, RS Anderssen) (The Modelling and Simulation Society of Australia and New Zealand Inc.)

Bennett TH, Flowers TJ, Bromham L (2013) Repeated evolution of salt tolerance in grass. Biology Letters 9, 9
Repeated evolution of salt tolerance in grass.Crossref | GoogleScholarGoogle Scholar |

Breakwell E (1923) Kikuyu grass (Pennisetum clandestinum). In ‘The grasses and fodder plants of New South Wales’. pp. 95–100. (Alfred James Kent, Government Printers: Sydney)

Brogdan AV (1977) ‘Tropical pasture and fodder plants.’ pp. 222–231. (Longman Inc.: New York)

Caetano-Anollés G, Bassam BJ, Gresshoff PM (1991) DNA amplification fingerprinting using very short arbitrary oligonucleotide primers. Biotechnology 9, 553–557.
DNA amplification fingerprinting using very short arbitrary oligonucleotide primers.Crossref | GoogleScholarGoogle Scholar |

Carr DJ, Ng EK (1956) Experimental induction of flower formation in kikuyu grass (Pennisetum clandestinum Hochst. ex Chiov.). Australian Journal of Agricultural Research 7, 1–6.
Experimental induction of flower formation in kikuyu grass (Pennisetum clandestinum Hochst. ex Chiov.).Crossref | GoogleScholarGoogle Scholar |

Carrow RN, Duncan RR (1998) ‘Salt-affected turfgrass sites: assessment and management.’ (John Wiley & Sons: Hoboken, NJ, USA)

Carrow RN, Duncan RR (2012) ‘Best management practices for saline and sodic turf grass soils.’ (CRC Press: Boca Raton, FL, USA)

Casler MD, Duncan RR (2003) ‘Turfgrass genetics, and breeding’. (John Wiley & Sons, Inc.: Hoboken, NJ, USA)

Chemisquy AM, Guissani LM, Scataglini MA, Kellogg EA, Morrone O (2010) Phylogenetic studies favour the unification of Pennisetum, Cenchrus and Odontelytrum (poaceae): a combined nuclear, plastid and morphological analysis, and nomenclatural combinations in Cenchrus. Annals of Botany 106, 107–130.
Phylogenetic studies favour the unification of Pennisetum, Cenchrus and Odontelytrum (poaceae): a combined nuclear, plastid and morphological analysis, and nomenclatural combinations in Cenchrus.Crossref | GoogleScholarGoogle Scholar |

CSIRO, Bureau of Meteorology (2015) ‘Climate change in Australia (technical report).’ (Department of the Environment, Australian Government: Canberra, ACT)

Cullen BR, Johnson IR, Eckard RJ, Lodge GM, Walker RG, Rawnsley RP, McCaskill MR (2009) Climate change effects on pasture systems in south eastern Australia. Crop & Pasture Science 60, 933–942.
Climate change effects on pasture systems in south eastern Australia.Crossref | GoogleScholarGoogle Scholar |

Cullity M (1948) Kikuyu grass. Journal of the Department of Agriculture of Western Australia 25, 185–198.

Edwards DC (1937) Three ecotypes of Pennisetum clandestinum. Empire Journal of Experimental Agriculture 5, 317–377.

Edwards DC (1940) The reaction of kikuyu grass (Pennisetum clandestinum) herbage to management. Empire Journal of Experimental Agriculture 8, 101–110.

FAO (2010) FAO, Rome. Available at: www.fao.org/AGP/AGPC/doc/GBASE/DATA/PF000298.HTM (accessed June 2016).

FAO (2013) ‘World statistical yearbook.’ (FAO: Rome)

FAO (2017) Global network on integrated soil management for sustainable use of salt affected soils. Natural Resources and Environment, FAO, Rome. Available at: www.fao.org/ag/AGL/agII/spush/intro.htm (accessed June 2016)

Felsenstein J (2005) ‘PHYLIP phylogeny inference package (version 3.6).’ (Department of Genome Science, University of Washington: Seattle, WA, USA)

Fitter AH, Hay RKM (2002) ‘Environmental physiology of plants.’ (Academic Press: San Diego, CA, USA)

Flowers TJ, Galal HK, Bromham L (2010) Evolution of halophytes: multiple origins of salt tolerance in land plants. Functional Plant Biology 37, 604–612.
Evolution of halophytes: multiple origins of salt tolerance in land plants.Crossref | GoogleScholarGoogle Scholar |

Foster PR, Reseigh J, Myers RJ (2010) ‘An introduction to the nutritional composition of Australian native grasses: forage and seed.’ (Rural Solutions and Primary Industries: Adelaide, S. Aust.)

Fulkerson WJ, Slack K, Havilah E (1999) The effect of defoliation interval and height on growth and herbage quality of kikuyu (Pennisetum clandestinum). Tropical Grasslands 33, 138–145.

Gammage B (2011) ‘The biggest estate on Earth.’ (Allen and Unwin: Crows Nest, NSW)

García SC, Islam MR, Clark CEF, Martin PM (2014) Kikuyu-based pasture for dairy production: a review. Crop & Pasture Science 65, 787–797.
Kikuyu-based pasture for dairy production: a review.Crossref | GoogleScholarGoogle Scholar |

Ghaly FM (2002) Role of natural vegetation in improving salt affected soil in Northern Egypt. Soil & Tillage Research 64, 173–178.
Role of natural vegetation in improving salt affected soil in Northern Egypt.Crossref | GoogleScholarGoogle Scholar |

Hanna WW, Chaparro CJ, Mathews BW, Burns JC, Sollenberger LE, Carpenter JR (2004) Perennial Pennisetums. In ‘Warm season (C4) grasses’. (Eds LE Moser, BL Burson, LE Sollenberger) pp. 520–526. (Agronomy Society of America, Inc.: Madison, WI, USA)

Hanselka CW, Hussey MA, Ibara F (2004) Buffelgrass. In ‘Warm-season (C4) grasses’. (Eds LE Moser, BL Burson, LE Sollenberger) pp. 477–502. (Agronomy Society of America, Inc.: Madison, WI, USA)

Helalia AM, El-Amir S, Abou-Zeid ST, Zaghloul KF (1992) Bio-reclamation of saline-sodic soil by amshot grass in North Egypt. Elsevier. Soil & Tillage Research 22, 109–115.
Bio-reclamation of saline-sodic soil by amshot grass in North Egypt. Elsevier.Crossref | GoogleScholarGoogle Scholar |

Helfgott SF (1994) Pennisetum clandestinum Hochst. ex Chiov. In ‘Weed management for developing countries’. (Eds R Labrada, JC Caseley, C Parker) pp. 72–73. (FAO: Rome)

Heuzé V, Tran G, Sauvant D (2015a) Dallis grass (Paspalum dilatatum). Cereal and grass fodder. Feedipedia. INRA, CIRAD, AFZ and FAO. Available at: www.Feedipedia.org/node/404 (accessed July 2016)

Heuzé V, Tran G, Delagarde R, Lebas F (2015b) Bermuda grass (Cynodon dactylon). Cereal and grass fodder. Feedipedia. INRA, CIRAD, AFZ and FAO. Available at: www.Feedipedia.org/node/471 (accessed July 2016)

Heuzé V, Tran G, Sauvant D (2015c) Red oat grass (Themeda triandra). Cereal and grass fodder. Feedipedia. INRA, CIRAD, AFZ and FAO. Available at: www.Feedipedia.org/node/367 (accessed July 2016)

Heuzé V, Tran G, Baumont R, Lebas F (2016) Buffel Grass (Cenchrus clandestinus). Cereal and grass fodder. Feedipedia. INRA, CIRAD, AFZ and FAO. Available at: www.Feedipedia.org/node/482 (accessed July 2016)

Holton TA, Skabo SJ, Lowe KF, Sinclair K (2007) Genetic fingerprinting of natural kikuyu population in Australia. Tropical Grasslands 41, 236–237.

Humphreys LR (1967) Buffel grass (Cenchrus ciliaris) in Australia. Tropical Grasses 1, 123–134.

Jauhar pp. (1981) ‘Cytogenetics and breeding of pearl millet and related species. In ‘Progress and topics in cytogenetics’. (Alan R. Liss: New York)

Khumalo TP (2015) Genetic identification of kikuyu grass (Pennisetum clandestinum) cultivars by RAPD and ISSR techniques. MSc Thesis, The University of Kwazulu-Natal, South Africa.

Liphschitz N, Waisel Y (1974) Existence of salt glands in various genera of the Gramineae. New Phytologist 73, 507–513.
Existence of salt glands in various genera of the Gramineae.Crossref | GoogleScholarGoogle Scholar |

Luckett D, Kaiser A, Virgona J (1996) Innovative breeding of high-digestibility kikuyu cultivars to increase milk production. Final report, DAN 063. Dairy Research and Development Corporation, Melbourne.

Marais J (2001) Factors affecting the nutritive value of kikuyu grass (Pennisetum Clandestinum)—a review. Tropical Grasslands 35, 65–84.

Marcum KB (1999) Salinity tolerance mechanisms of grasses in the subfamily Chloridoideae. Crop Science 39, 1153–1165.
Salinity tolerance mechanisms of grasses in the subfamily Chloridoideae.Crossref | GoogleScholarGoogle Scholar |

Masters DG, Benes SE, Norman HC (2007) Biosaline agriculture for forage and liversock production. Agriculture, Ecosystems & Environment 119, 234–248.
Biosaline agriculture for forage and liversock production.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2sXnslGitg%3D%3D&md5=343b95af209e0efe21c81f76cd966ac3CAS |

Mears PT (1970) Kikuyu—(Pennisetum clandestinum) as a pasture grass—a review. Tropical Grasses 4, 139–152.

Meredith D (1955) ‘The grasses pastures of South Africa.’ (Central News Agency: Capetown, South Africa)

Morgan JM, Condon AG (1986) Water use, grain yield and osmoregulation in wheat. Australian Journal of Plant Physiology 13, 523–532.
Water use, grain yield and osmoregulation in wheat.Crossref | GoogleScholarGoogle Scholar |

Morris B (2007) Breeding kikuyu for the future. Research report. Australian Turf Grass Management, Vol. 9.4, pp. 58–61.

Morris B (2009) Variation and breeding of kikuyu grass (Pennisetum clandestinum). PhD Thesis, Plant Breeding Institute, The University of Sydney, NSW, Australia.

Morrone O, Aagesen L, Scataglini MA, Salariato DL, Denham SS, Chemisguy MA, Sede SM, Giussani LM, Kellogg EA, Zuloaga FO (2012) Phylogeny of the Paniceae (Poaceae: Panicoideae) integrating plastid DNA sequences and morphology into a new classification. Cladistics 28, 333–356.

Munns R (2005) Tansley review. Genes and salt tolerance: bringing them together. New Phytologist 167, 645–663.
Tansley review. Genes and salt tolerance: bringing them together.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2MXhtVGisbfP&md5=ed3f7772998ebc85c31afa88121c5806CAS |

Muscolo A, Sidari M, Panuccio MR (2003) Tolerance of kikuyu grass to long term salt stress is associated with induction of antoxidant defences. Plant Growth Regulation 41, 57–62.
Tolerance of kikuyu grass to long term salt stress is associated with induction of antoxidant defences.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3sXoslShsro%3D&md5=51a5ae66fc4d427026de66fa36f46798CAS |

Muscolo A, Panuccio MR, Eshel A (2013) Ecophysiology of Pennisetum clandestinum: a valuable salt tolerant grass. Environmental and Experimental Botany 92, 55–63.
Ecophysiology of Pennisetum clandestinum: a valuable salt tolerant grass.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3sXovVCiu7k%3D&md5=d4822b25d04667cccd271677973e7970CAS |

Narayan K (1955) Cytogenetic studies of apomixis in Pennisetum (Pennisetum Clandestinum Hochst). Proceedings of the Indian Academy of Sciences. Section B, Biological Sciences 45, 196–208.

National Land and Water Resources Audit (2000) ‘Australian dryland salinity assessment Audit 1. Commonwealth of Australia. (The National Land and Water Resources Audit, Land & Water Australia: Canberra, ACT)

National Land and Water Resources Audit (2001) ‘Australian agriculture assessment. Vol 1.’ (National Land and Water Resources Audit, Land & Water Australia: Canberra, ACT)

Parker DL (1941) Strain variation and seed production in kikuyu grass (Pennisetum clandestinum Hochst). Journal of Agriculture of South Australia 45, 55–59.

Pessarakli M, Szabolcs I (1999) Soil salinity and sodicity as particular plant/crop stress factors. In ‘Handbook of plant and crop stress’. (Ed. M Pessarakli) pp. 3–21. (Marcel Dekker, Inc.: New York)

Radhakrishnan M, Waisel Y, Sternberg M (2006) Kikuyu grass: a valuable salt-tolerant fodder grass. Communications in Soil Science and Plant Analysis 37, 1269–1279.
Kikuyu grass: a valuable salt-tolerant fodder grass.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD28XltF2jsbw%3D&md5=64ec203c77671a5abe86ca69f734f4feCAS |

Reeves M, Fulkerson WJ, Kellaway RC (1996) Forage quality of kikuyu (Pennisetum clandestinum): the effect of time of defoliation and nitrogen fertiliser application and in comparison with perennial ryegrass (Lolium perenne). Australian Journal of Agricultural Research 47, 1349–1359.
Forage quality of kikuyu (Pennisetum clandestinum): the effect of time of defoliation and nitrogen fertiliser application and in comparison with perennial ryegrass (Lolium perenne).Crossref | GoogleScholarGoogle Scholar |

Robinson PH, Grattan SR, Getachew G, Greive CM, Poss JA, Suarrz DL, Benes SE (2004) Biomass accumulation and potential nutritive value of some forages irrigated with saline-sodic drainage water. Animal Feed Science and Technology 111, 175–189.
Biomass accumulation and potential nutritive value of some forages irrigated with saline-sodic drainage water.Crossref | GoogleScholarGoogle Scholar |

Rogers ME, Craig DA, Munns RE, Colmer TD, Nichols PGH, Malcolm CV, Barrett-Lennard EG, Brown AJ, Semple WS, Evans PM, Cowley K, Hughes SJ, Snowball R, Bennett SJ, Sweeney GC, Dear BS, Ewing MA (2005) The potential for developing fodder plant for the salt-affected areas of southern and eastern Australia: an overview. Australian Journal of Experimental Agriculture 45, 301–329.
The potential for developing fodder plant for the salt-affected areas of southern and eastern Australia: an overview.Crossref | GoogleScholarGoogle Scholar |

Rosenzweig C, Iglesius A, Yang XB, Epstein PR, Chivian E (2001) ‘Climate change and extreme weather events—implications for food production, plant disease, and pests.’ pp. 24. (NASA Publications). Available at: http://digitalcommons.unl.edu/nasapub/24 (accessed October 2016)

Ross BA (1999) Pennisetum clandestinum in Australia. In ‘Forage seed production. Volume 2: Tropical and subtropical species’. (Eds DS Loch, JE Ferguson) pp. 387–394. (CABI Publishing: Wallingford, UK)

Roy S, Chakraborty U (2014) Salt tolerance mechanisms in Salt Tolerant Grasses (STGs) and their prospects in cereal crop improvement. Botanical Studies 55, 31
Salt tolerance mechanisms in Salt Tolerant Grasses (STGs) and their prospects in cereal crop improvement.Crossref | GoogleScholarGoogle Scholar |

Rumman GA (2011) Ecophysiology of salt tolerance in three halophytic turfgrasses. PhD Thesis, School of Plant Biology, University of Western Australia, Crawley, W. Aust.

Russell FS (1976) Comparative salt tolerance of some tropical and temperate legumes and tropical grasses. Australian Journal of Experimental Agriculture and Animal Husbandry 16, 103–109.
Comparative salt tolerance of some tropical and temperate legumes and tropical grasses.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaE28XhtlClsLs%3D&md5=3fbd91e66beb69dd6941e88f110775c2CAS |

Russell JS, Webb HR (1976) Climatic ranges of grasses and legumes used in pasture: Results of the survey conducted at the 11th International Grassland Congress. Journal of the Australian Institute of Agricultural Science 42, 156–166.

Sanderman J, Fillery IRP, Jongepier R, Massalsky A, Roper MM, Macdonald LM, Maddern T, Murphy DV, Wilson BR, Baldock JA (2013) Carbon sequestration under subtropical perennial pasture 1: Overall trends. Soil Research 51, 760–770.
Carbon sequestration under subtropical perennial pasture 1: Overall trends.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3sXhvF2ktbnN&md5=689e9fccec2afa5a83131cb2128d9ac6CAS |

Skerman PJ, Riveros F (1990) ‘Tropical grasses.’ FAO Plant Production and Protection Series. (FAO: Rome)

Sokal RR, Michener CD (1958) A statistical method for evaluating systematic relationships. The University of Kansas Science Bulletin 38, 1409–1438.

Stapf O (1921) Kikuyu grass (Pennisetum clandestinum Chiov). In ‘Bulletin of Miscellaneous Information’. Vol. 2, pp. 85–93. (Royal Botanic Gardens: Kew, UK)

Turner NC (1999) Drought stress and adaptive responses. In ‘Plants in action’. (Eds BJ Atwell, PE Kriedemann, CGN Turnbull) pp. 482–484. (Macmillan Publishers: Melbourne)

Valliyodan B, Nguyen HG (2006) ‘Understanding regulatory networks and engineering for enhanced drought tolerance in plants. Current Opinion in Plant Biology 9, 189–195.
‘Understanding regulatory networks and engineering for enhanced drought tolerance in plants.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD28XhvVWrurw%3D&md5=fea9188c9cb256d00e8313f322d54fc7CAS |

Wheeler DJB, Jacobs SWL, Wally RDB (2002) ‘Grasses of New South Wales.’ pp. 327–328. (The University of New England: Armidale, NSW)

Whittet JN (1921) A promising introduction. Agricultural Gazette of New South Wales 32, 313–323.

Wilen CA, Holt JS (1996) Physiological mechanisms for the rapid growth of Pennisetum clandestinum in Mediterranean climates. Weed Research 36, 213–225.
Physiological mechanisms for the rapid growth of Pennisetum clandestinum in Mediterranean climates.Crossref | GoogleScholarGoogle Scholar |

Williams JGK, Kubelik AR, Livak KJ, Tingey SJ (1990) DNA polymorphic amplified by arbitrary primers are useful as genetic markers. Nucleic Acids Research 18, 6531–6535.
DNA polymorphic amplified by arbitrary primers are useful as genetic markers.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK3MXjslWmsA%3D%3D&md5=c4dc16e3cf514f5567c95a2b779f503cCAS |

Wilson GPM (1968) New kikuyu variety performs well in Grafton. Agricultural Gazette of New South Wales 79, 51

Wolfe E (2009) ‘Country pasture/forage resource profile Australia.’ (FAO: Rome)

Youngner VB (1961) Observation on the ecology and morphology of Pennisetum clandestinum. Phyton 16, 77–84.