SPATIAL ANALYSIS FOR LAND CAPABILITY ASSESSMENT IN

THE UPSTREAM OF WAMPU WATERSHED USING

GEOGRAPHIC INFORMATION SYSTEM

By:

a a b c _a

Rahmawaty , Sari Adryana , Ahmad Sofyan , Abdul Rauf

  

Forestry Study Program, Faculty of Agriculture, Sumatera Utara University,

_{b c}

BP DAS Wampu Sei Ular, Ministry of Forestry

Agroecotecnology Study Program, Faculty of Agriculture, Sumatera Utara University,

Medan, North Sumatra, Indonesia

Address: Jl. Tri Dharma Ujung No. 1 Kampus USU, Medan, 20155, North Sumatra, INDONESIA

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ABSTRACT

Land utilization in Wampu Hulu Sub Watershed should be based on its land capability.

  

This research was conducted in March-September 2011 at Wampu Watershed, Langkat,

North Sumatra, Indonesia. Land capability classification was conducted by spatial

analysis for capability of land criteria using Geographic Information System (GIS)

(overlay technique). The land criteria are slope, soil erodibility, level of erosion hazard,

soil depth, soil texture, permeability and drainage. Soil analyze was done in order to

obtain the data of soil texture, permeability, soil erodibility, while slope, soil depth, level

of erosion hazard and drainage was obtain from land system map. The result showed that

the land capability classification at Wampu Hulu Sub Watershed, divided by three

classes, namely: Class III, V, and VI.

Keywords: Geographic Information System, Land Capability, Overlay, Wampu

Watershed

I. INTRODUCTION

  Land capability is defined as the inherent capacity of land to perform under a given

use; thus, land capability classification (LCC) is the description of a landscape unit in

terms of its inherent capacity to sustain a desirable combination of flora and fauna. It is

the first approximation in the process of subdividing a land use planning unit into land

use response units (Villanueva, 2005). The important factors in analyzing land

  2

  

capabilities are slope, elevation, climate, topographic, landform, vegetation, geology,

soils and fauna (Oszaer, 1994).

  The important event that has occurred in Wampu Watershed was a flash flood

event on November 2, 2003. The flood that occurred in the upstream of Wampu

Watershed was resulting land cover change on the physical conditions. After eight years

of flooding, of course, there has been a lot of changes in land use. Incompatible land use

will also worsen the condition of the Wampu Watershed which is a watershed in the

category needs to be restored supportability. Therefore, it is necessary to do research on

the capability of the land in Wampu Watershed using spatial analysis (overlay technique)

that can be done with software of Geographic Information Systems (GIS).

  Research on the classification of land capability especially after flash floods in

Wampu watershed area using GIS has not been done before. Therefore, the data and

information regarding the capability of the land needs to be studied further. This study

aimed to map the land capability class in the upstream of Wampu Watershed.

II. MATERIALS AND METHODS

  This research was conducted in March until September 2011, in the upstream of Wampu Watershed ( Figure 1 ) .

  

Figure 1. Map of study sites

  3

  Land capability classification (LCC) was evaluated based on FAO guidelines

(FAO, 1976). Land capability classification was done is based on criteria in Arsyad

(2006). According to Morgan (1986) cited by Oszaer (1994), the objective of the

classification is to regionalize an area of land into units with similar kinds and degrees of

limitations. The basic unit is the capability unit. This consists of a group of soil types

of sufficiently similar conditions in terms of profile form, slope and degree of erosion as

to make them suitable for similar crops and warrant the use of similar conservation

measures. Furthermore, the capability units are combined into sub-classes according to

the nature of the limiting factor and these, in turn, are grouped into classes based on the

degree of limitation. The criteria and description of Land Capability Classes were based

on FAO, 1976 and Arsyad, 2006. The GIS spatial analysis was used to overlay to all

thematic maps.

III. RESULTS AND DISCUSSION

  Based on Langkat Administration Map in 2010, the upstream of Wampu

Wateeshed is located in 5 districts, namely: Bahorok Sub-District, Kutam Sub-District,

Sirapi Sub-District, Wampu Sub-District, and Selesai Sub-District (Figure 2). The

upstream of Wampu Watershed bordered with Batang Serangan Sub-District in Northern,

Salapi Sub-District and Kuala Sub-District in Southern, Binjai Sub-District and Stabat

Sub-District of the Eastern, and Aceh Tenggara District, Aceh Province in the west.

There are 12 land systems in the upstream of Wampu Watershed, namely : Bakunan

(BKN), Pakasi (PKS), Batuapung (BTG), Pandreh (PDH), Bukit Pandan (BPD), Lubuk

Sikaping (LBS), Gunung Gadang (GGD), Maput (MPT), Taweh (TWH), Kalung (KLG),

Kahayan (KHY), dan Bukit tinggi (BGI) (Figure 3). Based on the results, there are three

land capability class in the upstream of Wampu Watershed, namely : land capability class

III, V, and VI (Figure 4).

  4

  .

  Figure 2. The location of the study on the Langkat administration Figure 3. Map of the land system in the upstream of Wampu Watershed

  5

  Figure 4. Map of land capability in the upstream of Wampu Watershed The land with class III has a flat slope level, the land cover class III are in the

wetland and dry farming with area 919.77 ha, land capability classification results

were agree with the statement of Wirosuprojo (2005) which states that based on the

landform and direction of land use, it can be explained that the area has a flat and

gentle slopes with fertile soil and sufficient water available continuously an

agricultural area of wetlands that can be established as a center for food crops. wetland

and dry farming classified into class III was also agree with the statement of Arsyad

(2006) which states that the land belonging to class III is a land that has a formidable

barriers that reduce the choice of the use or require special conservation measures and

both. The land with Class III can be used for crops and plants that require tillage, grass

crops, pasture, forest production, forest and wildlife reserves. It is also supported by

Fletcher and Gibb (1990) which states that the land capability class I-IV can be used

for fields and intercropping.

  The land with class V was covered by the dry agricultural land, fields,

settlements, and the plantation. The area was about 27 442.93 ha. According to

Fletcher and Gibb (1990) this was due to land fifth grade can only be used for

  6

  

intercropping with soil conservation measures, the statement also was supported by

Arsyad (2006). In class V can only be used for grass, grazing meadow, forest

production or protection forest and nature reserves. According to Arsyad (2006) soils

in class V is not threatened land erosion but have other obstacles that are not to be

removed, limiting its use choice, because the land is suitable for grass crops, pasture,

and forest production or protection forest and nature reserves. Soils in class V have

barriers that restrict the use of a wide selection of plants and inhibit tillage for crops.

These soils located on flat or nearly flat topography but stagnant water, frequently

flooded or rocky or less appropriate climate or have a combination of these obstacles.

  The land with class VI has a steep slope. The land was covered by the primary

forest, secondary forest and shrub with area abour 21.987.44 ha. This is agree with the

statement of Wirosuprojo (2005) which states that the steep slope areas should be used

for limited production forests, protected forests and nature reserves. Land cover

belonging to the class VI is also consistent with the statement Arsyad (2006) which

states that soils in class VI, the land is not suitable for agricultural use; its use was

limited to grazing, production forests, protected forests, and nature reserves. Class VI

soils located on moderate steep slope, if used for grazing and production forests should

be managed properly to avoid erosion. Some soils in class VI and roots in the area but

is located on moderate steep slope can be used for crops with severe conservation

measures. It is also supported by Rahmawaty (2011) which conducted research in

Besitang Watershed.

IV. CONCLUSIONS

  Land capability classification in the upstream of Wampu Watershed consists

of three classes, namely: Class III , Class V and Class VI. Land capability

classifications according to land cover were in Class III and Class VI in the upstream

of Wampu Watershed. In class V, the suitable land covers were only on dry land

agriculture and plantations.

  

REFERENCES

  7

  Arsyad, S. 2006. Soil and Water Conservation (Konservasi Tanah dan Air). Penerbit IPB (IPB press), Bogor. 396p. [Bahasa Indonesia].

Fletcher, J.R. and R.G. Gibb. 1991. Land Resource Inventory Handbook for Soil

  Conservation Planning in Indonesia. NZ DSIR Scientific Report No. 11. NZ DSIR Land Resources and Dir Gen RLR of Indonesia. 87 pp.

  

Food and Agriculture Organization (FAO). 1976. A Framework for Land Evaluation.

  FAO Soils bulletin 32, Rome, Italy.

Oszaer, R. 1994. Land Use Optimization in Waeriuapa Watershed, Kairatu, Seram,

Maluku, Indonesia Using Geographical Information System and Linear Programming. Ph.D. Dissertation. University of the Philippines Los Banos.

  

Rahmawaty, T.R. Villaneuva, M.G. Carandang. 2011. Participatory Land use

Allocation, Case Study In Besitang watershed, Langkat, North Sumatera, Indonesia. Lambert Academic Publishing. German. 212pp.

Villanueva, T.R. 2005. Upland Ecosystem Management. Second Edition. University

of the Philippines Open University, Los Banos, Laguna. 200pp.

  

Wirosuprojo, S. 2005. Land Classification for land use planning in Sleman district

Yogyakarta ( Klasifikasi lahan untuk perencanaan Penggunaan lahan di kabupaten sleman Daerah istimewa Yogyakarta ). Fakultas Geografi UGM.

  Yogyakarta. [Bahasa Indonesia].

  Comment: Please follow the proceding guidelines

  12/3/2018 Gmail - Fwd: IWoRS Schedule

  Rahmawaty PhD <rahmawaty1974@gmail.com> Fwd: IWoRS Schedule 1 message

  Thu, Nov 27, 2014 at 7:43 AM rahmawaty@usu.ac.id <rahmawaty@usu.ac.id> To: rahmawaty1974@gmail.com

• Original Message -------- Subject: Fwd: IWoRS Schedule Date: 2014-10-15 09:02 From: "Int' Symposium of IWoRS 2014" < >,

  yu Asri <

udhi Dwi Kurniawan

< ,

, wahyu hidayat < ,

Ermy Puspita < >, irawan < >, < >, momo subyakto < < Dear Sir/Madame We send the IWoRS Schedule.

  We are sorry, we late to send it. Thank you very much. Best regards

  IWoRS Committee Schedule of IWoRS.pdf 419K

  SCHEDULE FOR INTERNATIONAL SYMPOSIUM OF

  INDONESIAN WOOD RESEARCH SOCIETY (IWoRS) GARUDA PLAZA HOTEL, 12-13 NOVEMBER 2014 Room Poster Time Session

  Rajawali Rajawali Kasuari Parkit Peakok Cendrawasih

  X

  1

2 Wednesday, 12 Nov. 2014

  10.00-11.30 Keynote Speech Prof. Nan-Hun KIM

• Prof. Shigehiko SUZUKI
• 11.30-12.30 Parallel A01 – A04 B01 – B04 C01 – C04 D01 – D04 E01 – E04 F01 – F04 Session I 12.30-13.30 Lunch Break 13.30-14.00 Invite

  IS - A

  IS – B

  IS - C

  IS - D

  IS - E

  IS - F Speaker

• – G01 14.00-15.00 Parallel A05 – A08 B05 – B08 C05 – C08 D05 – D08 E05 – E08 F05 – F08 G25 Session II 15.00-16.00 Paralel A09 – A12 B09 – B12 C09 – C12 D09 – D12 E09 – E12 F09 – F12 Session III

  16.00-16.15 Coffee Break 16.15-17.30 Parallel A13 B13 F13

• – A17 – B16 C13 – C16 D13 – D16 E13 – E17 – F16 Session IV Thursday, 13 Nov. 2014 08.00-08.30 Standing Poster + Coffee Break 08.30-09.30 Keynote Speech
• Prof. Dr. Nobuaki HATTORI* -

  Prof. Dr. Dodi Nandika

  09.30-10.30 Parallel B17 F17 - F20

• – B20 C17 – C20

  Session V 10.30-11.15 Parallel B21 F21
• – B23 C21 – C 23 – F22 Session VI 11.15-12.00 Closing Ceremony

  Note : * in Confirmation

A. Wood Based Properties No Code The Title

  1 A Samama (Anthocephallus macrophyllus) Wood Quality at 8 and 10 Years Old

• – 01

  Tekat Dwi Cahyono, Imam Wahyudi, Trisna Priadi, Fauzi Febrianto, Wayan Darmawan, Effendi Tri Bahtiar, and Syarif Ohorella

  2 A Hyperspectral Imaging for The Knot Detection of Solid Wood Surface

• – 02

  Hikaru Kobori, Kouch Kato, Satoru Tsuchikawa, Yoichi Kojima and Shigehiko SuzukiI

  3 A The Effects of Tar Treatment on Falcataria moluccana Wood Anatomical

• – 03

  Properties Infected by Gall Rust Fungus

  Hairi Cipta, Widyanto Dwi Nugroho, and Sri Rahayu

  4 A Variations in Moisture Content and Shrinkage of Gigantochloa scortechinii and

• – 04

  Bambusa vulgaris at Different Height of Bamboo Culm Rogerson Anokye, Regina Maria Kalong, Edi Suhaimi Bakar, Jegathewaran Ratnasingam, Mohammad Jawaid, and Khairul Awang

  5 IS The Effect of Six Months Girdling on the Physical Properties of Teak Wood

• – A Growing on the Community Forest

  Sri Nugroho Marsoem, Joko Sulistyo, Ganis Lukmandaru, Soekmana Wedatama, and Dwi Sukma Rini

  6 A The Permeability of Some Tropical Hardwoods in Green and Dry Conditions

• – 05

  Adrian Choo Cheng Yong, Alinaghi Karimi, Paridah Md Tahir, Mohd Khairun Anwar Uyub, and Edi Suhaimi Bakar

  7 A - -06 Total Utilization of Oil Palm Stem

  Wahyu Dwianto, Fitria, and Teguh Darmawan

  8 A Characteristics Variation of Surian Woods (Toona Sinensis Roem.) in West Java,

• – 07

  Indonesia

  Yoyo Suhaya, Aos M. Akyas, Titin Supriatun, and Imam Wahyudi

  9 A Differences in The Timing of Disappearance Among Cellular Contents During Cell

• – 08

  Death of Ray Parenchyma in Abies sachalinensis

  Satoshi Nakaba, Izumi Arakawa, Hikaru Morimoto Yuzou Sano, and Ryo Funada

  10 A Effect of Heating Temperature on The Physical and Mechanical Properties of

• – 09

  Okan Wood (Cylicodiscus gabunensis(Taub.) Harms)

  Wahyu Hidayat, Jae-Hyuk Jang, Se-Hwi Park, and Nam-Hun Kim

  11 A Characteristics of Several Wood from Community Forest as Potential Application

• – 10 for Raw Material for Composite Board

  Andi Detti Yunianti, Suhasman, and Sahriyanti Saad

  12 A Wood Anatomy and Related Properties of Naturally Grown Philippine Teak

• – 11

  (Tectona philippinensis Benth. & Hook. f.)

  

Arsenio B. Ella, Emmanuel P. Domingo, and Elvina O. Bondad

  13 A Variation in Mechanical Properties of Two Rubberwood Clones in Relation to

• – 12

  Planting Density

  Hamid Reza Naji, Edi Suhaimi Bakar, Hazandy Abdul-Hamid, Seyed Eshagh Ebadi, and Mohd. Hamami Sahri

  14 A Wood Properties of Shorea agamii P.S. Ashton and Its Potential Utilization as an

• – 13

  Alternative for Pulp and Paper Raw Material

  

Listya Mustika Dewi, Dian Anggraini Indrawan, and Han Roliadi

  15 A Bond Ability of Oil Palm Wood with Isocyanate Adhesive

• – 14

  Atmawi Darwis, Muhammad Y Massijaya, Naresworo Nugroho, Eka M Alamsyah, and Dodik R Nurrochmat

  16 A Suitability of The 28 Year-Old of Conventional Teakwood as Raw Material for

• – 15

  Wooden Furniture

  Imam Wahyudi, Yusuf Zawawi, and Armita Prilia Nestri

  17 A Wood Properties of Kayu Bawang Planted in South Sumatera, Indonesia

• – 16

  Haruna Aiso, Mirai Hirano, Futoshi Ishiguri, Ridwan Yahya, Imam Wahyudi, Jyunichi Ohshima, Kazuya Iizuka, and Shinso Yokota

  18 A Physico-mechanical Behaviors of Heat Treated Oil Palm Wood in Different

• – 17

  Buffered Mediums

  Seyed Eshagh Ebadi, Ali Naghi Karimi, Hamid Reza Naji, Muhammad Anuar Ridzuan Saliman

B. Biocomposite No Code The Title

  1 B Hot Pressing Behavior and Properties of Wood-Based Panels from Different

• – 01

  Furnish and Various Densities

  Muhammad Navis Rofii, Shuto Kubota, Yoichi Kojima and Shigehiko Suzuki

  2 B Physical Mechanical Properties of Wood Plastic Composite Made from Recycled

• – 02

  Plastic and Teak Sawdust Waste

  N Hadjib, F Febrianto, YS Hadi

  3 B Influence of Impact Modifier-Compatiblilizer Combination on Tensile Properties

• – 03 and Impact Strength of Wood Flour and Polypropylene Composite

  Fauzi Febrianto, Seung-Hwan Lee, Wahyu Hidayat, I Nyoman Jaya Wistara, Nam-Hun Kim

  4 B Properties Of Sengon Particleboards Bonded Using Citric Acid and Sucrose as

• – 04

  Natural Binders

  Ragil Widyorini and Pradana Ardhi Nugraha

  5 IS B The Effect of Supercritical CO Treatment on The Curing and Degradation

  2 Processes Of Cement-Bonded Particleboard

  6 B Cyclic Test on Jatropha Hulls Particle Board with Urea Formaldehyde Adhesive

• – 05 and Soaking Treatment

  Ana Agustina and Dede Hermawan

  7 B Mechanical Properties of Composite Based on Polylactic Acid and Kraft Pulp of

• – 06

  Oil Palm Empty Fruit Bunch

  Lisman Suryanegara and Yudhi Dwi Kurniawan

  8 B Effect of Wood Shaving Mixture to Improve Mechanichal Properties of

• – 07

  Particleboard Made from Sorghum Stalk Bagasse

  Apri Heri Iswanto, Irawati Azhar, Supriyanto, and Andriyanta Ginting

  9 B Improvement of PVA Composite Film Properties by Reinforcing Nanocrystalline

• – 08

  Cellulose Isolated from Primary Sludge

  Iwan Risnasari, Fauzi Febrianto, Nyoman Jaya Wistara, Sucahyo Sadiyo and Siti Nikmatin

  10 B The Substitution Effect of Oil Palm Shell Charcoal, Coconut Fiberand Empty Fruit

• – 09

  Bunched Fiber for Physical and Mechanical Properties of Composite for Railway Brake Blocks

  Ismail Budiman, Ismadi, Subyakto, Sasa Sofyan Munawar, Wida Banar Kusumaningrum, Hilman Saeful Alam, Agus Edy Pramono, and Jayadi

  11 B Particleboard with Jatropha Hulls Treatment Soaking as Efforts to Improvement

• – 10

  The Product Quality

  Dede Hermawan and Ana Agustina

  12 B Effects of Fiber Loading on The Properties of Pineapple Leaves Fiber

• – 11
• – PLA Nanocomposites

  Subyakto, Lisman Suryanegara, Wida Banar Kusumaningrum, Yudhi Dwi Kurniawan

  13 B Fibrillated Oil Palm Frond Cellulose Fibers in Polylactic Acid-Polypropylene

• – 12

  Blends Composite

  

Firda Aulya Syamani, Subyakto, Sukardi, and Ani Suryani

  14 B Effect of Rubber and Falcata Ratio to Strandboard Manufacture

• – 13

  IhakSumardi ,EkaMulya Alamsyah, and Atmawi Darwis

  15 B Surian Bark-Powder as a New Alternative for The Decreasing of Pressure

• – 14

  Temperature of Phenol Formaldehyde (I): Plywood Production

  Eka Mulya Alamsyah, Sutrisno and Tati Karliati

  16 B Particleboard from Fast Growing Species with an Extract Bark of Mahogany

• – 15

  (Swietenia sp) as Tannin Adhesive

  Andi Sri Rahayu Diza Lestari, Yusuf Sudo Hadi, Dede Hermawan, and Adi Santoso

  17 B Effects of Density and Resin Level on the Permeability and Water Absorption of

• – 16

  Kenaf-Rubberwood Particleboard

  Juliana Abdul Halip, Paridah Md Tahir, and Adrian Choo Cheng Yong

  18 B Effect of Layers Structure on Characteristics of Binderless Comply

• – 17

  Suhasman, Andi Detti Yunianti, and Sahriyanti Saad

  19 B Utilizitation of Co Injection Technology and Acccelerator for Producing Bamboo

• – 18

2 Cement Board

  Bakri, Musrizal Muin, Baharuddin, Sahriyanti Saad, and Suhasman

  20 B Utilization of Cardboard Duplex as an Alternative Raw Materials Composite Board

• – 19

  Nova Lestari and Muh. Yusram Massijaya

  21 B Mechanical Properties 3-Ply Plywood of Paraserianthes mollucana Using Three

• – 20

  Diferrent Adhesive

  Mulyani Efendi and Yusram Massijaya

  22 B Morphological Characteristics of Lignocellulose Nanofibers Prepared by

• – 21

  Enzymatic Hydrolysis from Different Lignin Content of Betung Bamboo

  Jae-Hyuk Jang, Noriko Hayashi, Seung-Hwan Lee, Eiji Togawa, Satoshi Kubo, Fauzi Febrianto and Nam-Hun Kim

  23 B Nano Clay and Phenolic Resin Admixture as Novel Bulking Agent for

• – 22

  Lignocellulosic Materials

  Nabil Fikri Leemon, Zaidon Ashaari, Mohd Khairun Anwar Uyup, Edi Suhaimi Bakar, Paridah Md Tahir, Mohd Anuar Ridzuan Saliman and Mohd Aizat Ghani

  24 B Performance Measurements of Oil Palm Stem Plywood as Potential Raw Material

• – 23 in Certified Plywood Production Using Property-Cost Index (PCI)

  Aida Adnan, Paridah Md. Tahir, Khamuruddin Mohd. Nor, and Rosli Saleh

C. Wood Quality, Laminated Board and Wood Engineering No Code The Title

  1 C The Quality of Jabon Wood Impregnated with Styrene and Methacrylathe

• – 01

  Lusita Wardani, Iwan Risnasari, Yusuf Sudo Hadi

  2 C

• – 02 New Efficient and Practical Method for Producing „Compreg‟ OPW through

  Integrated Objective Approach

  Edi S. Bakar, Al-Hasan Y. Abare, Adrain C.C. Yong, Zaidon Ashaari

  3 C Effect of Steaming before Compression on The Physico-Mechanical Properties of

• – 03

  

Compreg OPW Treated with the 6-step Processing Method

Alhassan Y. Abare, Edi S. Bakar, and Zaidon Ashaari

  4 C Physical Mechanical Properties of Poly Ethylene Glicol Wood From Three Fast

• – 04

  Growing Species

  Yudha Aditiya, Yusuf Sudo Hadi, and Nurwati Hadjib

  5 IS Substituting Modulus of Elasticity Ratio by Vascular Bundle Ratio for Bamboo

• – C Strip and Laminated Bamboo Layer System Analysis

  Naresworo Nugroho, Effendi Tri Bahtiar, Surjono Surjokusumo, Lina Karlinasari, Atmawi Darwis

  6 C Effect of Impregnation with Polymerized Merbau Extractive on the Fixation of

• – 05

  Compressed White JabonWood (Anthocephalus Cadamba)

  Jamaludin Malik, Barbara Ozarska, Wahyu Dwianto, Yan Mulyana, Gustan Pari, and Dede Hermawan

  7 C Physical Mechanical Properties of Poly Ethylene Glicol and Polystyrene Woods

• – 06 from Mangium and Pine

  Masturoh Surachman, Yusuf Sudo Hadi,and Dominicus Martono

  8 C Physical Mechanical Properties of Polystyrene Wood of Three Fast Growing

• – 07

  Species

  

Aji Kusumo Wibowo, Yusuf Sudo Hadi, and Nurwati Hadjib

  9 C Shear Strength Quality Of Red Meranti Gluelam

• – 08

  IsnaYuniar Wardhani and AgusSulistyo Budi

  10 C Physical-Mechanical Properties of Glued Laminated Timber Made from Small-

• – 09

  Diameter Log

  Rahma Nur Komariah, Yusuf Sudo Hadi, Muh.Yusram Massijaya, and Jajang Suryana

  11 C -10 Microwave and Steam Injection Drying of Laser Incised Mahogani Lumber

  Tomy Listyanto, Keisuke Ando, Hidefumi Yamauchi, Nobuaki Hattori

  12 C -11 Performance of Laminated Wood Glued with Gutta-Percha-based Adhesive

  

Tati Karliati, Fauzi Febrianto, Wasrin Syafii , Imam Wahyudi

  13 C Performance Of Glued Laminated Lumber Made From Waste Oil Palm Trunk

• – 12

  Dina Ali, Muh. Yusram Massijaya, Yusuf Sudo Hadi

  14 C Lathe Check Characteristics of Fast Growing Sengon Veneers and Their Effect

• – 13 on LVL Glue-Bond and Bending Strength

  Wayan Darmawan, Dodi Nandika, Irsan Alipraja, Abigael Kabe, Istie Rahayu, Louis Denaud, and Barbara Ozarska

  15 C Physical and Mechanical Properties of Laminated Board made from Bamboo

• – 14

  Betung (Dendrocalamus asper Backer Ex. Heyne) Under Various Treatment of Layers Number and Testing Position

  Mariah Ulfa, Luthfi Hakim, Tito Sucipto

  16 C Cross Laminated Timber Made From Fast Growing Species With Acacia Tannin

• – 15

  Adhesive

  Jessica, Yusuf Sudo Hadi, Muh. Yusram Massijaya, Adi Santoso

  17 C The Effect Of Finger Joint Orientation And Teak Quality Class On Its Adhesion

• – 16

  Strength

  Tibertius Agus Prayitno and Wijanarko Herlambang

  18 C Glulam timber beam-column joint using quick connect system

• – 17

  

Johannes Adhijoso Tjondro, Pricillia Sofyan Tanuwijaya

  19 C Development of Lateral Load Connections with Modified-Washer and Nail

• – 18

  Strengthening Y.A. Pranata, A. Kristianto, and O.C. Pattipawaej

  20 C Application of Non-Destructive Test for Checking Available Timber for

• – 19

  Construction Materials in the Market

  Ajun Hariono and Anita Firmanti

  21 C Building Condition Index And Remaining Service Lifetime Estimation For Wood

• – 20

  Component Of Low Cost House At Alam Sinar Sari

• – Bogor

  Effendi Tri Bahtiar, Arinana, Naresworo Nugroho, Dodi Nandika, dan Muhamad Ari Kurniawan

  22 C The Effect of Radial Position and Veneer Thickness on Mechanical Properties of

• – 21

  Fast Growing Species Laminated Veneer Lumber

  Istie Rahayu, Louis Denaud, Julien Ruelle, Wayan Darmawan

  23 C Effect of Knives Speed Rotation

• – 22 and Duration of It‟s Use on Machining Quality of

  Teak Wood

  Yustinus Suranto and Sigit Pambudi

  24 C Development and Characterization of Finger-jointed Laminated Bamboo Timber

• – 23 for Furniture application

  Rogerson Anokye, Edi Suhaimi Bakar, Jegathewaran Ratnasingam, Mohammad Jawaid, Khairul Awang

D. Wood Biodegradation and Non Wood Forest Product No Code The Title

  1 D Comparing The Potential Ability of Fungi Isolated from Tropical and Temperate

• – 01

  Forest, to Decolorize Four Type Dyes

  Asep Hidayat and Sanro Tachibana

  2 D The Resistance from Dry Wood Termite (Cryptotermes cynocephalus) after Heat

• – 02 Treatment of Mindi Wood (Melia azedarach L.).

  Trisna Priadi, and Ady Pratama

  3 D The Treatability of Anggrung (Trema orientalis) Wood by Copper Sulfate

• – 03

  Taman Alex

  4 D Termite Resistance of Three Layer Particle Board Shorea Leprosula Miq. from

• – 04

  Natural and Plantation Forest

  Yuliati Indrayani, Gusti Hardiansyah, Gustan Pari

  5 IS Consumtion Rate and Transfer Efficiency by Termite Coptotermes sp. of Organic

• – D Waste-based Food for Bait Formulations

  Musrizal Muin, Astuti Arif, Sitti Nuraeni, Heru Arisandi dan Wa Ode Fatima Zahro

  6 D Evaluating The Adhesion Durability of API Bonded Glulam after The Accelerated

• – 05

  Aging Treatments

  Taiyo Okada, Hikaru Kobori, Yoichi Kojima, Shigehiko Suzuki, Kuniharu Nishikido, Akira Hirose, Kazuaki Takahashi

  7 D Detection of Incipient Decay of Meranti Wood by Using Light Microscope

• – 06

   Erwin, Dady Mulya, and Agus Sulistyobudi

  8 D Antioxidant and Antimicrobial Activities of Several Plants from Sapindaceae

• – 07

  Families

  

Whicliffe Fiernaleonardo Pasedan, and Harlinda Kuspradini

  9 D Termite Species Diversity and Intensity of Building Damage in Perumahan

• – 08

  Nasional Bumi Bekasi Baru-Rawalumbu-Bekasi

  

Arinana, Noor Farikhah Haneda, and Windi Ayu Prawitasari

  10 D Potenctial of Lai fruit (Durio kutejensis) Extract as an Antioxidant and Anti-

• – 09

  Melanogenesis Activities

  Enos Tangke Arung, Wiwin Suwinarti, Medi Hendra, Supomo, Irawan Wijaya Kusuma, Dwi Caesarina Nanda Puteri, Kuniyoshi Shimizu, and Hiroya Ishikawa

  11 D -10 Distribution and Identification of The Termite Genus Coptotermes in South Sulawesi, Indonesia

  Astuti Arif, Musrizal Muin, Nurariaty Agus, and Muh. Nasrum Massi

  12 D -11 Durability of Cross Laminated Timber From The Palm Oil Trunks ( Elaeis

  guineensis Jacq ) on Various Orientation Fiber Dwi Hatmojo Kresnoadi and Muh. Yusram Massijaya

  13 D Durability of Several Densified Woods

• – 12

  Imam Wahyudi and Novan Danuwihardi

  14 D Termite Pests (Isoptera: Kalotermitidae, Rhinotermitidae, and Termitidae) in

• – 13

  Bandung City

  Eko Kuswanto, Intan Ahmad, Ramadhani E. Putra, and Idham S. Harahap

  15 D Treatability of Oil Palm Frond and Rubberwood Chips with Urea for The

• – 14

  Development of Slow Release Fertilizer Nur Nabilah AK, Zaidon Ashaari, Ahmad Husni M H, Azmy M and Lee, S H.

  16 D Natural Durability and Effectiveness of Boron Compound as Preservatives in

• – 15

  Teak Wood from Short Rotation Community Forest

  Yus Andhini Bhekti Pertiwi, Sri Nugroho Marsoem, and Joko Sulistyo

  17 D Enzymatic Delignification Of Falcata (Paraserianthes falcataria) Wood By White

• – 16

  Rot Fungi Trametes versicolor

  Syamsul Falah, Suryani, and Azmi Azhari

E. Wood Chemistry and Bioenergi No Code The Title

  1 E Methane Production from Co-Digestion of Palm Oil Mill Effluent (POME) and

• – 01

  Shredded Empty Fruit Bunches (EFB)

  Nurliyana M.Y., H’ng P.S., Halis R., and Umi Kalsom M.S

  2 E Quality Traits of Leaf Bleached Kraft Pulp (LBKP) of Local Wood Species,

• – 02

  Terentang and Binuang

  Eka Novriyanti, Dodi Frianto, and Ahmad Rojidin

  3 E Bond Quality of Aqueous Polymer Isocyanate Adhesive Prepared from Natural

• – 03

  Rubber Latex, Lignin and Polyvinyl Alcohol with Isocyanate Crosslinker

  Euis Hermiati, R. Permana Budi Laksana, M. Adly Rahandi Lubis, Lucky Risanto, Rusli

  4 E The Utilization of Lignocellulose Biomass from Plantation Forest as Raw Material

• – 04 for Bioethanol Production

  Wiwin Suwinarti, Rudianto Amirta and Wahyu Kurniawan

  5 IS Evaluation of growth and potential ethanolproduction from Macaranga gigantea,

• – E an alternative plant species for the development of forest energy plantation in Indonesia

  Rudianto Amirta, Dwi Susanto, Maman Sutisna and Daddy Ruchyat

  6 E Utilization of Adsorbent from Tamarind Seeds for the Reduction of PV (Peroxide

• – 05

  Value) in CPO (Crude Palm Oil)

  Agnes Sartika Pardede, Agus Mangiring Siburian and Setiaty Pandia

  7 E Quality Of Biopellets From Oilpalm Trunk And Rice Husk With Different Type Of

• – 06

  Adhesives

  Dina Setyawati, Farah Diba, and Nurhaida 8 E Torrefaction for upgrading the calorific value of wood waste of Melia azedarach L.

• – 07 for heating material

  J.P. Gentur Sutapa, Aji Nur Rakmat and Denny Irawati

  9 E Fiber Disruption Of Betung Bamboo (Dendrocalamus Asper) By Combined

• – 08

  Fungal And Microwave Pretreatment

  Widya Fatriasari, Wasrin Syafii, Nyoman Wistara, Kaswar Syamsu, Bambang Prasetya, Sita Heris Anita, and Lucky Risanto

  10 E Utilization of Oil Palm Waste (ElaeisguineensisJacq.) as Biopellet Materials

• – 09

  Wihdatul A. Sa’adah, Muh. Yusram Massijaya, and GustanPari

  11 E Characteristics of Biopelet from Mixed of Shells and Frond of Oil Palm (Elaeis

• – 10 guineensis Jacq.)

  Ermy Puspitasari, Dede Hermawan and Gustan Pari

  12 E Palm Shells and Empty Fruit Bunches Biopellet as an Alternative Renewable

• – 11

  Energy Resource

  Novi Ari Christanty, Dede Hermawan and Gustan Pari

  13 E Removal of Oil Palm Biomass Ash Forming Elements Using Leaching

• – 12

  Techniques K.L. Chin, P.S. H’ng, S.H. Lee, W.C. Lum, M.T. Paridah, A.C. Luqman, and M.

  Maminski

  14 E The Properties of Biopellet from Oil Palm Trunk

• – 13

  Nyoman J Wistara, Mohammad A Rohmatullah, and Gustan Pari

  15 E Chemical and Morphological Change of Empty Palm Fruit Bunch Fibers

• – 14

  Pretreated by Hot Treatment and Three White-Rot Fungi for Obtaining Ultralong Cellulose Nanofibers (CNFs)

  Achmad Solikhin, Yusuf Sudo Hadi, Muh. Yusram Massijaya, and Siti Nikmatin

  16 E Potential of a Medicinal Plant from Bentian Tribe, Kaser (Cananga sp) as a

• – 15

  Source of Pharmacologically Active Compound

  Anindya Marsabella Rosiarto, Irawan Wijaya Kusuma, Murdiyanto, Farida Aryani, Enos Tangke Arung, Yong-Ung Kim

  17 E Biological Activities of Ethnobotanically-Selected Medicinal Plants In East

• – 16

  Kalimantan Local Tribes

  Irawan Wijaya Kusuma, Murdiyanto, Farida Aryani, EnosTangke Arung, Syafrizal, Yong-Ung Kim

  18 E A Study of Antibacterial Effect of Some Selected Essential Oils from Lauraceae

• – 17

  Plants

  Harlinda Kuspradini, Dewi Ardiana Putri, and Yanti F.

   General Forester No Code The Title nd

  1 F Growth Evaluation of Ebony (Diospyros Ebenum Koenig.) for 22 Month Age in

• – 01

  Arboretum of Manado Forestry Research Institute

  Julianus Kinho

  2 F The Potency of Indigenous Species as A Mercury Phytoremediator on Illegal Ex-

• – 02

  Gold Mining Reclamation

  Wiwik Ekyastuti and Emi Roslinda

  3 F Drainage Ditches Establishment on Peatland Landscape: Effects on Water Table

• – 03

  Levels, Biomass Growth, and Mortality of West Kalimantan Degraded Forests

  Dwi Astiani and Mujiman

  4 F Analysis of Multistakeholders in Rattan Industry Development in Ambon City

• – 04

  Messalina L Salampessy , Indra G Febriano, Buchkori, and Neni

  5 IS Bridging the Network on Research of Restoration Forest Ecosystem Based on

• – F Community as an Efforts to Reduce Green Houses Gases Effect

  Gusti Hardiansyah, Fahrizal, and Farah Diba

  6 F An Optimum Choice of Strategic Marketing for Indonesian Plywood Industry:

• – 05

  Operationalization of Porter Five Forces Model using Analytic Hierarchy Process

  Makkarennu, Akira Nakayasu, Katsuya Osozawa Masahiro Ichikawa , and

  7 F Semi-Manual Technique of Mangrove Commercial Exploitationat Bintuni Bay,

• – 06

  West Papua

  Wahyudi

  8 F The Economic Impact of Sustainable Forest Management (SFM) Practices on

• – 07

  The Development of Plywood Market in Peninsular Malaysia

  A.W. Noraida, A.S. Abdul Rahim and H.O. Shahwahid

  9 F The Content Of Heavy Metal Lead (Pb) in The Dragon Fruit and Cassava on Coal

• – 08

  Mined Lands In the Village Of Purwajaya Tenggarong District East Kalimantan

  Budi Winarni, Nur Hidayat, Sri Ngapiyatun

  10 F Carbon Stock Estimation on Some Trees in Ecological Corridor between Betung

• – 09

  Kerihun and Kayang Mentarang National Park, East Kalimantan

  Rita Diana

  11 F Mined-

• – 10 out Land Rehabilitation Works and it‟s Potential Recovery - A Field Observation and Research Experience

  Triyono Sudarmadji

  12 F Genetic Quality of P. falcataria (L) Nielsen Half-Sib Progeny Test F-2 Followed of

• – 11

  Stem Borrer Resistance and High Economic Selection Base on Morphology Marker

  Sopandi Sunarya and Susana P Dewi

  13 F Ecological Preference of Litsea cubeba Lour. Persoon in Mount Papandayan:

• – 12

  Relationship to Essential Oil Yield and Compositions Ichsan Suwandhi, Cecep Kusmana, Ani Suryani, and Tatang Tiryana

  14 F Breadfruit (Artocarpus Communis Forst) Seedling Growth Response to Some

• – 13

  Kind of Watering to Soil Derived from The Catchment Area of Lake Toba

  Afiffuddin Dalimunthe, Budi Utomo, Irma Y Sembiring

  15 F Analysis of Production Cost of Carbonless Copy Paper (Case Study in PT. Pindo

• – 14

  Deli Pulp and Paper Mills II)

  Ratih Ayu Syafriza and E.G. Manurung

  16 F Analysis of Potency and Quality of Elaeis Guineensis Oils in Bangun Bandar

• – 15

  Seed Production, North Sumatra, Indonesia

  Mohammad Basyuni, Nofrizal Amri, Heru Prayogi, Lollie AP Putri, Diana S Hanafiah, Indra Syahputra, and Deni Arifiyanto

  17 F Carbon Storage and Spatial Distribution of Hybrid Eucalyptus Plantation Forest

• – 16

  Siti Latifah