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Elemental and nutritional values of wild fodder plants of poaceae in District Bannu, Pakistan

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Research Paper 01/11/2018
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Elemental and nutritional values of wild fodder plants of poaceae in District Bannu, Pakistan

Alamgir Khan, Ihsan Ullah, Saad Ullah Khan, Kebin Zhang, Zair Muhammad, Sultan Mehmood Wazir, Faizan Ullah, Sher Shah, Liujiang Kang, Manzoor Ullah
Int. J. Agron. Agri. Res.13( 5), 53-61, November 2018.
Certificate: IJAAR 2018 [Generate Certificate]
Key: Elemental analysisFodder plantsNutritional valuesPoaceae

Abstract

The present study was designed to determine the elemental and nutritional values of wild fodder plants in district Bannu and its adjoining frontier region.Proximate analysis of fodder including proteins, fibers, fats, moisture, ash contents, carbohydrates and elemental composition of plant parts were determined by using atomic absorption spectrophotometer.For elemental analysis 11 elements; N, Mg, P, Pb, K, Ca, Cr, Fe, Cd, Ni,and Zn were investigated for all fodder. Aristida adscensioniswas found with the highest percentage of gross energy (396.50%). Among the nutrients, the highest value was determined for proteins in Rostraria cristata (6.25%), carbohydrates in Polypogon mospeliensis (65.12%), fibers in Dichanthium annulantum (34%) and fats in both Aristida adscensionisand Polypogon mospeliensis (8%) respectively.The results indicated that these plants supplement livestock with essential nutrients and elements.

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The government of Pakistan-Ministry of Finance, Pakistan Economic Survey, 2015 (2014–15).

AOAC. 1999. Official methods of analysis. 15thEdn. Association of Official Agriculture Chemists Washington, DC.

AOAC. 2000. Official methods of analysis. 15thEdn. Association of Official Agriculture Chemists Washington, DC.

AOAC. 1990. Official methods of analysis. 15thEdn. Association of Official Agriculture Chemists Washington, DC.

AOCS. 2005. Official Procedure Approved Procedure. Rapid determination of oil/fat utilizing high-temperature solvent extraction. American Oil Chemists Society.

Aruma O. 1996. Assessment of potential pro-oxidant and antioxidant actions. Journal of the American Oil Chemist’s Society (JAOCS) 73(12), 1617-1625.

Bahadur A, Chaudhry Z, Jan G, Danish M, ur Rehman A, Ahmad R, Khalid S, Shah Z, Ali F, Mushtaq T. 2011. Nutritional and elemental analyses of some selected fodder species used in traditional medicine. African Journal of Pharmacy and Pharmacology 5, 1157-1161.

Bengtsson H, Öborn I, Jonsson S, Nilsson I,Andersson A. 2003. Field balances of some mineral nutrients and trace elements in organic and conventional dairy farming—a case study at Öjebyn, Sweden. European Journal of Agronomy 20, 101-116.

Choudhury RP, Garg A. 2007. Variation in essential, trace and toxic elemental contents in Murraya koenigii–A spice and medicinal herb from different Indian states. Food Chemistry 104, 1454-1463.

Elekes CC, Busuioc G,  Ionita G. 2010. The bioaccumulation of some heavy metals in the fruiting body of wild growing mushrooms. Notulae Botanicae Horti Agrobotanici Cluj-Napoca 38, 147-151.

Eslami A, Mehrasbi M, Peyda M, Noorani M, Maleki A. 2007. Heavy metals in edible green vegetables grown along the sites of the Zanjanrood river in Zanjan, Iran: implications for human health. Tropical Medicine & International Health 12, 56.

Frasher P. 2006. Phytosterols as functional food components and nutraceuticals. Phytochemistry 67, 212-214.

Geng Y, Hu G, Ranjitkar S, Wang Y, Bu D, Pei S, Ou X, Lu Y, Ma X,  Xu J. 2017. Prioritizing fodder species based on traditional knowledge: a case study of Mithun (Bos frontalis) in Dulongjiang area, Yunnan Province, Southwest China. Journal of ethnobiology and ethnomedicine 13,24.

Guarrera PM, Salerno G, Caneva G. 2006. Food, flavoring and feed plant traditions in the Tyrrhenian sector of Basilicata, Italy. Journal of Ethnobiology and Ethnomedicine 2, 37.

HM. 1995. Mineral Nutrition of Higher Plants. 2nd ed. Academic Press.

Hseu ZY. 2004. Evaluating heavy metal contents in nine composts using four digestion methods. Bioresource technology 95, 53-59.

Hussain K, Nisar MF, Majeed A, Nawaz K, Bhatti KH. 2010. Ethnomedicinal survey for important plants of Jalalpur Jattan, district Gujrat, Punjab, Pakistan. Ethnobotanical Leaflets 7(2010), 11.

Isildak Ö, Turkekul I, Elmastas M, Tuzen M. 2004. Analysis of heavy metals in some wild-grown edible mushrooms from the middle black sea region, Turkey. Food Chemistry 86, 547-552.

Joo NS, Kim SM, Jung YS, Kim KM. 2009. Hair iron and other minerals’ level in breast cancer patients. Biological trace element research 129, 28-35.

Kolasani A, Xu H, Millikan M. 2011. Evaluation of mineral content of Chinese medicinal herbs used to improve kidney function with chemometrics. Food chemistry 127, 1465-1471.

Kononov V, Dikanev G, Rassadnikov V. 2005. New high protein fodder crops in the lower Volga region. Kormoproizvodstvo 5, 22-23.

Leterme P, Buldgen A, Estrada F, Londoño A. M. 2006. Mineral content of tropical fruits and unconventional foods of the Andes and the rain forest of Colombia. Food Chemistry 95, 644-652.

Malik ZA, Bhat JA, Ballabha R, Bussmann R. W, Bhatt A. 2015. Ethnomedicinal plants traditionally used in health care practices by inhabitants of Western Himalaya. Journal of Ethnopharmacology 172, 133-144.

Mc Dowell LR. 1996. Feeding minerals to cattle on pasture. Animal feed science and technology 60, 247-271.

Nahed J, Villafuerte L, Grande D, Pérez-Gil F, Alemán T, Carmona J. 1997. Fodder shrub and tree species in the Highlands of southern Mexico. Animal feed science and technology 68, 213-223.

Newall CA, Anderson LA, Phillipson JD. 1996. “Herbal medicines. A guide for health-care professionals,” The pharmaceutical press.

Nunes AT, Lucena RFP, dos Santos MVF, Albuquerque UP. 2015. Local knowledge about fodder plants in the semi-arid region of Northeastern Brazil. Journal of Ethnobiology and ethnomedicine 11, 12.

Okoli I, Ebere C, Uchegbu M, Udah C, Ibeawuchi I. 2003. A survey of the diversity of plants utilized for small ruminant feeding in south-eastern Nigeria. Agriculture, ecosystems & environment 96, 147-154.

Pardo-de-Santayana M, Tardío J, Blanco E, Carvalho AM, Lastra JJ, San Miguel E, Morales R. 2007. Traditional knowledge of wild edible plants used in the northwest of the Iberian Peninsula (Spain and Portugal): a comparative study. Journal of Ethnobiology and Ethnomedicine 3, 27.

Parvaiz M. 2014. Ethnobotanical studies on plant resources of Mangowal, District Gujrat, Punjab, Pakistan. Avicenna journal of phytomedicine 4, 364.

Rai V, Kakkar P, Khatoon S, Rawat A, Mehrotra S. 2001. Heavy metal accumulation in some herbal drugs. Pharmaceutical biology 39, 384-387.

Ranfa A, Maurizi A, Romano B, Bodesmo M. 2014. The importance of traditional uses and nutraceutical aspects of some edible wild plants in human nutrition: the case of Umbria (central Italy). Plant Biosystems-An International Journal Dealing with all Aspects of Plant Biology 148, 297-306.

Saeed M, Khan H, Khan MA, Khan F, Khan S. A, Muhammad N. 2010. Quantification of various metals and cytotoxic profile of aerial parts of Polygonatum verticillatum. Pakistan Journal of Botany 42, 3995-4002.

Singh A, Nautiyal MC, Kunwar RM, Bussmann RW. 2017. Ethnomedicinal plants used by local inhabitants of Jakholi block, Rudraprayag district, western Himalaya, India. Journal of Ethnobiology and ethnomedicine 13, 49.

Soylak M, Saraçoğlu S, Tüzen M, Mendil D. 2005. Determination of trace metals in mushroom samples from Kayseri, Turkey. Food Chemistry 92,649-652.

Srivastava R, Khan R, Nasim S, Manzoor N, Ajasa A, Bello M, Ibrahim A, Ogunwande I, Olawore N, Alia M. 2004. Matricaria chamomilla is not a hyperaccumulator, but tolerant to cadmium stress. International Journal of Botany 7, 67-71.

Svoboda L, Havlíčková B, Kalač P. 2006. Contents of cadmium, mercury and lead in edible mushrooms growing in a historical silver-mining area. Food Chemistry 96, 580-585.

Tucker G. 2003. Nutritional enhancement of plants. Current Opinion in Biotechnology 14, 221-225.

Rehman F.  2002. Nutraceutical antioxidants-An overview. Indian journal of pharmaceutical education 36(1), 3-8.

Vanzani P, Rossetto M, De Marco V, Sacchetti LE, Paoletti MG, Rigo A. 2011. Wild Mediterranean plants as traditional food: a valuable source of antioxidants. Journal of Food Science 76, C46-C51.

Warman P, Termeer W. 2005. Evaluation of sewage sludge, septic waste and sludge compost applications to corn and forage: yields and N, P and K content of crops and soils. Bioresource technology 96, 955-961.

Yagi S, Rahman AEA, Elhassan GO, Mohammed AM. 2013. Elemental analysis of ten Sudanese medicinal plants using X-ray fluorescence. Journal of Applied and Industrial Sciences 1, 49-53.

Zafar M, Khan MA, Ahmad M, Jan G, Sultana S, Ullah K, Marwat SK, Ahmad F, Jabeen A, Nazir A. 2010. Elemental analysis of some medicinal plants used in traditional medicine by atomic absorption spectrophotometer (AAS). Journal of Medicinal Plants Research 4, 1987-1990.

Zahoor M, Yousaf Z, AqsaT, Haroon M, Saleh N, Aftab A, Javed S, Qadeer M, Ramazan H. 2017. An ethnopharmacological evaluation of Navapind and Shahpur Virkanin district Sheikupura, Pakistan for their herbal medicines. Journal of Ethnobiology and ethnomedicine 13, 27.

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