**13. Conclusion**

Bana grass has always had a valuable role in the world of agriculture over the years. The potential of the grass for improving agriculture and bringing stability to the ecosystem is enormous in sub-Saharan Africa. Nevertheless, its future use in agriculture is limited by the knowledge gap and poor adoption in general. The current impacts of climate change together with the high cost involved in feeding animals justify the need to improve establishment and utilization of the miracle grass. Bana grass is relatively easy to propagate and can reach up to a height of 3 m in 3–4 months and has high leaf to stem ration compared to most improved grasses. The grass can also be grown on hard-to-irrigate areas but of course on soils with good irrigation, making it suitable for the sub-Saharan climate. The grass is also native to sub-Saharan Africa. The author calls upon researchers, government structures responsible for agriculture, and development partners to promote establishment and utilization of the miracle grass in order to improve livestock production and livelihoods and reverse the terrible effects of climate change in sub-Saharan Africa.

[3] Asudi GO, Van den Berg J, Midega CAO, Pickett JA, Khan ZR. The significance of Napier grass stunt phytoplasma and its transmission to cereals and sugarcane. Journal

Bana Grass Growing in Sub Saharan Africa http://dx.doi.org/10.5772/intechopen.82367 155

[4] Turano B, Tiwari UP, Jha R. Growth and nutritional evaluation of napier grass hybrids as forage for ruminants. Tropical Grasslands-Forrajes Tropicales. 2016;**4**(3):168-178

[5] Tessema ZK, Mihret J, Solomon M. Effect of defoliation frequency and cutting height on growth, dry-matter yield and nutritive value of Napier grass (*Pennisetum purpureum* (L.)

[6] Budiman B, Soetrisno RD, Budhi SPS, Indrianto A. Morphological characteristics, productivity and quality of three napier grass (*Pennisetum purpureum* Schum) cultivars harvested at different age. Journal of the Indonesian Tropical Animal Agriculture.

[7] Mendieta-Araica B, Spörndly E, Reyes-Sánchez N, Norell L, Spörndly R. Silage quality when *Moringa oleifera* is ensiled in mixtures with elephant grass, sugar cane and molas-

[8] Kozloski GV et al. Intake and digestion by lambs of dwarf elephant grass (*Pennisetum purpureum* Schum. cv. Mott) hay or hay supplemented with urea and different levels of

[9] Bowden J. Stem-borer ecology and strategy for control. Annals of Applied Biology.

[10] Asudi GO, van den Berg J, Midega CA, Pittchar J, Pickett JA, Khan ZR. Napier grass stunt disease in East Africa: Farmers' perspectives on disease management. Crop Protection.

[11] Rusdy M. Elephant grass as forage for ruminant animals. Livestock Research for Rural

[12] Palacios-Díaz MP, Mendoza-Grimón V, Fernández-Vera JR, Hernández-Moreno JM. Effects of defoliation and nitrogen uptake on forage nutritive values of *Pennisetum* sp.

[13] Negawo AT, Teshome A, Kumar A, Hanson J, Jones CS. Opportunities for Napier grass (*Pennisetum purpureum*) improvement using molecular genetics. Agronomy. 2017;**7**(2):28

cracked corn grain. Animal Feed Science and Technology. 2006;**125**(1-2):111-122

of Phytopathology. 2016;**164**(6):378-385

2012;**37**(4):294-301

1976;**84**(1):107-111

2015;**71**:116-124

Development. 2016;**28**(4)

Schumach). Grass and Forage Science. 2010;**65**(4):421-430

ses. Grass and Forage Science. 2009;**64**(4):364-373

Journal of Animal and Plant Sciences. 2013;**23**(2):566-574

It is preferable to include a Conclusion(s) section, which will summarize the content of the book chapter.
