1. The document discusses research on mycorrhizal fungi of local tree species for restoration of tropical peat swamp forests in Sumatra. 2. Progress includes identifying 50 isolates of arbuscular mycorrhizal fungi from natural forests and testing their effects on plant growth. 3. Future research plans include choosing the best 5-10 fungi for mass production and field trials of a restoration model using a biofertilizer consortium containing mycorrhizal fungi, bacteria, and other natural inputs.

1. Bogor, 14 February 2020
Mycorrhizal research of local tree species for
restoration activity in tropical peat swamp
forests of Sumatra
Progress Research
FORDA-MoEF

2. 1. Rewetting 2. Peat Forest Fire
Prevention
4. MRV
3. Restoration/Reforestation
Need Mycorrhizal inoculation ?
INTRODUCTION

3. Spore of AM fungi
Trap culture
Single culture
Survey of mycorrhizal local in natural forest concession area of Sinar Mas
Trap culture and idenfication of AM fungi
Screening & effectivity test of AM fungi
+M -M
PROGRESS

4. Mass production of AM fungi
50 isolates of AM fungi
5-10 isolates of AM fungi

5. Arbuscular Mycorrhizal Fungi (AMF) +
Plant Growth Promoting Rhizobacteria (PGPR)
PUI : FRDC & RCB-LIPICentre of Excellence of ScienceTech

6. Jelutung ( umur 2 bulan)Restoration model based on forest community participation &
Eco-friendly (no plastic)
• Rooting is well developed
• Pot media are compact
• Ecofriendly
Restoration Model

7. Aerohydro culture management
Application of microbial consortium in oil palm plantation

8. High Quality Seedlings are required
Early growth is important
SUMMARY
Shorea balangeran, Dyera polyphylla, Combretocarpus rotundatus, Cratoxylon
arborescens, Tristaniopsis obovata, Melaleuca cajuputi, Alstonia pneumatophora, etc.
Next Step of Research :
• to choose the best 5-10 of AM fungi
• to find effective mass production of AM fungi
Biofertilizer consortium :
- Arbuscular Mycorrhizal fungi
- Ectomycorrhizal fungi
- PGPR (liquid organic biofertilizer)
- Natural compost
- Fertilizer + micro nutrient(Briquette
form)
- Biochar, etc.
- ZeoliteNeed Felid Trial : Restoration model of TPSF

9. Agustini L., Irianto R.S.B., Indrayadi H., Tanna R.D., Fahrizawati, Faulina, S.A., Hidayat A.S.,
Tjahjono, B., Priatna D., Turjaman M. 2020. The Effects of Arbuscular Mycorrhizal
Inoculation to Growth and Survivability of Micropropagated Eucalyptus pellita and Acacia
crassicarpa in Nursery. IOP Conference Series : Earth Environ. Sci. In Press.
Turjaman, M. 2020. Role of mycorrhizal fungi for supporting aero-hydroculture in peatland. In:
M. Osaki, N. Tsuji (Eds.), Tropical Peatland Ecosystems. Springer. Book Chapter. In Press.
Turjaman M., Herdyantara B., Faulina S.A., Agaustini L., Irianto R.S.B., Hidayat A., Wahno I.,
Murdani, Tjahyono B., Indrayadi H. 2019. Mycorrhizal colonization of indigenious of
tropical tree species grown in peat swamp forests of Sumatra, Indonesia. IOP Conference
Series : Earth Environ. Sci. 308 012049. Doi:10.1088/1755-1315/308/1/012049. 7 Pp.
Helbert, Turjaman M., Nara K. 2019. Ectomycorrhizal fungal communities of secondary tropical
forests dominated by Tristaniopsis in Bangka Island, Indonesia. PLoS ONE. 14
(9):e0221998.
Tawaraya K, M. Turjaman. 2016. Mycorrhizal in Peatland. In: M. Osaki, N. Tsuji (Eds.), Tropical
Peatland Ecosystems, pp.237-244. DOI 10.1007/978-4-431-55681-7_15. Springer.
Tawaraya K, M. Turjaman. 2014. Use of arbuscular mycorrhizal fungi for reforestation of
degraded tropical forests. Eds. Z.M. Solaeman, L.K. Abbot, and A. Varrma. In : Mycorrhizal
fungi: Use in sustainable agriculture and land restoration. Springer. 357-373p.
Graham, L.L.B, Turjaman M., Page S.E. 2013. Shorea balangerean and Dyera polyphyla (syn.
Dyera lowii) as tropical peat swamp forest restoration transplant species: effects of
mycorrhizae and level of disturbance. Wetlands and Ecology Management. Wetlands
Ecole Manage 21:307-321. DOI.10.1007/s11273-013-9302-x. Springer.
REFERENCES