Asian Journal of Plant Sciences1682-39741812-5697Asian Network for Scientific Information10.3923/ajps.2019.101.109Pericopsis mooniana in Coal Mine]]>Husna MansurIrdika Budi R.Sri Wilarso TuheteruFaisal Danu ArifAsrianti TuheteruEdy Jamal Albasri 32019183Background and Objective: Post-coal mining land has poor soil physical characteristic and high metal toxicity and hence needs to be recovered. The recovery effort can be done through addition of organic material input, utilization of beneficial microorganism such as Arbuscular Mycorrhizal Fungi (AMF) and selection of suitable tree species. The purpose of this study was to investigate the effect of AMF and compost on the growth and uptake of nutrients and metal by Pericopsis mooniana in soil media of post coal mine land. Materials and Methods: A greenhouse experiment was carried out by using factorial Completely Randomised Design. The first factor was the AMF inoculum (Factor A): control (A0), AMF-KG (A1), AMF-UHO (A2), AMF-Vale (A3), AMF-CA (A4), AMF-HA (A5), AMF-BJ (A6), AMF-Mycofer (A7) and the second factor was an organic material (Factor B): ex-mined soil+without any organic material (B0), soil, compost, sand (2:1:1) (B1) and soil, compost, sand and rice husk (2:1:1:1) (B2). The experiment was carried out for 5 months on a greenhouse scale. After 150 days the seedlings were collected to quantify growth parameters, mycorrhizal root colonization rate and number spores and nutrient uptake. Results: The results showed that the local AMF was able to colonize the roots of the P. mooniana and increase in the growth and dry weight of plants and also tend to increase the C, N, P, K, Ca and Mg accumulation. The enrichment of organic material in the coal mine media stimulated the growth and nutrient uptake. P. mooniana performs phytoremediation mechanisms through rhizofiltration techniques (Fe, Cd, Pb) and phytoextraction (Cr and Mn). Conclusion: Inoculation with AMF and the enrichment of organic materials have the potential to support post-coal mining land restoration.]]>Sheoran, V., A.S. Sheoran and P. Poonia,20102010Larney, F.J. and D.A. Angers,2012921938Daynes, C.N., D.J. Field, J.A. Saleeba, M.A. Cole and P.A. McGee,20102010pp: 4043Maiti, S.K.,2013Pages: 361Pages: 361Tuheteru, F.D., C. Kusmana, I. Mansur and Iskandar,2015Nauclea orientalis L.) towards mycorrhizal inoculum in waterlogged condition.]]>226171Husna, R.S.W. Budi, I. Mansur and C. Kusmana,2016Pericopsis mooniana (Thw.) Thw] with mycorrhiza in soil media of nickel post mining site.]]>19158170Husna, F.D. Tuheteru and A. Arif,20172017pp: 293-303pp: 293-303Tuheteru, F.D and Q.S. Wu,20172017pp: 43-66pp: 43-66Daft, M.J. and T.H. Nicolson,19747311291138Rydlova, J. and M. Vosatka,2001368597Kumar, A., R. Raghuwanshi and R.S. Upadhyay,200344253256Ekka, N.J. and N. Behera,20105369372Wu, F.Y., Y.L. Bi and M.H. Wong,2009Rhizobium to facilitate the growth of alfalfa on coal mine substrates.]]>32755771Taheri, W.I. and J.D. Bever,201045138143Zhao, R.X., W. Guo, R.Y. Fu, W.J. Zhao, J.Y. Guo, N. Bi and J. Zhang,20133444474454, (In Chinese)Guo, W., R. Zhao, R. Fu, N. Bi and L. Wang et al.,2014Zea mays L.) grown in three types of coal mine spoils.]]>2135923603Li, S., Y. Bi, W. Kong, H. Yu, Q. Lang and Y. Miao,201546431437Wulandari, D., W. Cheng and K. Tawaraya,2016Albizia saman and Paraserianthes falcataria growth in post-opencast coal mine field in East Kalimantan, Indonesia.]]>3766773Chen, B.D., Y.G. Zhu, J. Duan, X.Y. Xiao and S.E. Smith,2007Glomus mosseae on growth and metal uptake by four plant species in copper mine tailings.]]>147374380Giasson, P., A. Jaouich, P. Cayer, S. Gagne, P. Moutoglis and L. Massicotte,20061797110Gorhe, V. and U. Paszkowski,200622311151122Widyati, E., I. Mansur, C. Kusmana, I. Anas and E. Santoso,20052295302, (In Indonesian)Muleta, D. and D. Woyessa,20122012pp: 219-241pp: 219-241Husna, S.W. Budi, I. Mansur and D.C. Kusmana,2015Pericopsis mooniana Thw.) in Southeast Sulawesi.]]>18110Duryea, M.L. and G.N. Brown,1984Pages: 325Pages: 325Brundrett, M., N. Bougher, B. Dell, T. Grove and N. Malajczuk,1996Pages: 374Pages: 374Habte, M. and A. Manjunath,19911312Auge, R.M.,200484373381Smith, S.E. and D.J. Read,20083rd Edn.,Pages: 800Pages: 800Miransari, M.,20172017pp: 147-161pp: 147-161Abbott, L.K. and N.C. Johnson,20172017pp: 93-105pp: 93-105Hao, X.J., J.P. Hong, T.Q. Zhang, J.R. Li, W.J. Gao and Z.M. Zheng,20144524132428Khan, A.G.,198187363370Khan, A.G.,1988Glomus mosseae and growth of onion plants in unsterilized bituminous coal spoil.]]>20749753Dove, D.C., W.L. Daniels and D.J. Parrish,19901990pp: 463467Mehrotra, V.S.,1996717377Puschel, D., J. Rydlova, R. Sudova and M. Gryndler,2008vs. high organic amendments.]]>171872877Tchabi, A., D. Coyne, F. Hountondji, L. Lawouin, A. Wiemken and F. Oehl,2010Dioscorea rotundata) growth in West Africa.]]>4592100Perner, H., D. Schwarz, C. Bruns, P. Mader and G. Eckhard,200717469474Juwarkar, A.A. and H.P. Jambhulkar,20089947324741Mukhopadhyay, S. and S.K. Maiti,200929801808Brown, P.H.,20062006pp: 511-536pp: 511-536Lambers, H., F.S. Chapin and T.L. Pons,20082nd Edn.,Pages: 605Pages: 605