 Good afternoon, distinguished guests, ladies, and gentlemen. I would like to welcome you to the ITPC site even at the World Forestry Congress. Can bioenergy from degraded pitlands provide a potential alternative to meet growing energy demands, lesson learned from Indonesia. Today, Wednesday, 4th May 2022. My name is Angga Pratama Putrat, and I am greatly honoured to have this opportunity. Bioenergy plants grown on degraded pitlands can serve the double function of restoration and providing a sustainable source of energy. We demand for sustainable energy growing significantly across the world, including in the global salt and tropical pitlands regions. There is an urgent need to rebuild resilient landscapes with multiple functions. Please welcome to our two days moderator, Dr. Haruni Krisnawati, the ITPC Lead Coordinator. For Dr. Haruni, the floor is yours. Good morning in Indonesia, and good afternoon here in Korea. Distinguished speakers, participants, ladies, and gentlemen. Welcome, and thank you for joining the session of the event of the 15 World Forestry Congress with the title, Can bioenergy from degraded pitlands provide a potential alternative to meet growing energy demands, lesson learned from Indonesia. I'm Haruni Krisnawati. We'll be sharing the session. The session will discuss about the challenges and opportunity for renewable bioenergy from plant resource to provide a potential alternative to meet growing energy demands. How agroforestry can be a win-win solution to degraded pitlands utilization, and which aspect should be emphasized to maximize impact from renewable bioenergy from plant resource. The session will run in one hour and 30 minutes, and we have a keynote speaker and five panelists. Distinguished participants, ladies and gentlemen. First, I would like to introduce and extend a very warm welcome to our distinguished keynote speaker and panelists. First, we'll be having Mr. Ari Sudianto, the head of the Standardization Agency for Environment and Forestry Instruments, Ministry of Environment and Forestry Republic of Indonesia, who will be joining with us from Jakarta, Indonesia. Selamat pagi. Good morning, Pari. And we will be having five panelists. The first one, Prof. Indro Yono Susilo, the chairman of the Association of Indonesia Forest Concession Holder, who will also be joining with us again in Jakarta, Indonesia. Good morning. Selamat pagi, Prof. Indro Yono. Pari, good morning. And we have Prof. Pudi Lexono, the principal researcher from National Research and Innovation Agency Indonesia, which formerly with the Ministry of Environment of Forestry, will also be joining with us from Indonesia, but from Cokjakarta, not the city in Indonesia. Good morning. Selamat pagi, Prof. Pudi. Good morning, Prof. Indro Yono. Selamat pagi. And we are lucky. We have three speakers who are joining with us here in Korea. The first one, Dr. Mi-Hyun Sool, the scientist from CIFOR. And we also have Dr. Suho Choi, the program officer from the ASEAN Forest Cooperation, FOKO, Secretariat. Thank you. And we also have Dr. Himlal Baral, the Senior Scientist at the Center for International Forestry Research, CIFOR. Without further ado, we will go to the first agenda. During this distinguished participant ladies and gentlemen, please join us in welcoming remarks from Dr. Ari Sudianto. Ari? Time is yours. Thank you, Bu Haruni. Bismillahirrahmanirrahim. Distinguished speaker, Prof. Indro Yono Susilo, Chairman of the Association of Indonesia Forest Concession Holder. Mr. Suho Choi, program officer at the ASEAN Forest Cooperation, FOKO, Secretariat. Prof. Budi Laksono, Principal Researcher, National Research and Innovation Agency Indonesia. Dr. Himlal Baral, Senior Scientist at the Center of International Forestry Research, CIFOR, and also Dr. Mi-Hun Sol, Scientist at CIFOR. And at least, the moderator, Prof. Haruni Kisawati, Lead Coordinator of International Tropical Pitline Center, ITPC. Distinguished participants, ladies and gentlemen, Good morning for colleagues and participants from Jakarta and also good afternoon for colleagues and participants in Seoul. Thank you all for joining the session basically in Seoul Convention Center and also for those who are joining us virtually. First of all, I would like to extend my gratitude and highest appreciation for the hard work and dedication provided by the International Tropical Pitline Center Secretariat, the Ministry of Environment and Forestry in the Republic of Indonesia. The Center for International Forestry Research, CIFOR, and all partners involved in organizing this session on canned bioenergy from degraded pitline provide a potential alternative to meet growing energy demands less than learn from Indonesia. At the site event of the 15 World Forestry Congress in Seoul Republic of Korea. It is my great honor to have this opportunity to address this session, to share experiences and lesson learned in bioenergy for landscape restoration on pitlines to meet a growing energy demand while also contributing to the international commitment, including raising our climate ambition. Distinguished participants, ladies and gentlemen, the Indonesia government keeps its commitment under the nationally determined contribution or NDC to reduce greenhouse gas emission by 29% using our domestic resources and up to 41% with international support against business as usual, secondario by 2030. The most significant emission reduction will be expected to be achieved by the forestry sector followed by energy sector. Ejector is expected to contribute around 11% out of the 29% emission reduction target with the mind greenhouse gas emission reduction come from the renewable energy. To meet this target, the Indonesia government has committed to increase in new renewable energy production including bioenergy from plantation resource with the aim to meet 23% its national energy mix by 2025 and 31% by 2050. However, such expansion of the plantation for energy production could trigger competition with other line users such as for food production and biodiversity conservation to avoid such competition and to diversify bioenergy production degraded and underutilized lines including pit lanes has been identified as a potential area for bioenergy production. Distinguished participant, ladies and gentlemen, bioenergy can provide a potential alternative to meet growing energy demands while also contributing to the emission reduction, planting bioenergy crops or degraded lands can help Indonesia meet its landscape restoration target and satisfy its growing energy demand. Bioenergy plantation can secrestrate and store carbon, support biodiversity and provide livelihood opportunities in remote and isolated regions. Restoring fast areas of degraded lands is a costly undertaking and due to their limited productivity and so far prove unattractive to investors. Establishing bioenergy plantation on degraded land can help offset the high cost involvement in meeting land restoration target. We don't need to compete for land with food production and curb unsustainable wood extraction from natural forest. It can also contribute to global restoration goal such as the UN Decade on Ecosystem Restoration and the Born Challenge as well as Indonesia Nationally Determined Contribution and Commitment to Restore around 14 million hectares of degraded land by 2030. Distinguished participant, ladies and gentlemen, despite the importance of bioenergy plantation restoring lands by growing bioenergy crops is still in its infancy and requires son of science policy support, practice, guidance and monitoring. Identifying the right three species for the right purpose in the right place and respecting local rights are the key to success bioenergy plantation development which support from and in collaboration with Forest National Institute of Forest Science NIVOS, SAIFOR Indonesia of Environment and Forestry and local partners have been undertaking a range of activities to address the knowledge implementation gap in the potential of restoring degraded wetland for bioenergy and food production. Knowing which bioenergy crops are suitable for cultivation on the degraded wetland is vital. Other gradual consideration include how such crops can enhance income for communities and support biodiversity and sustainable development. Restoring degraded and underutilized speedland using bioful production species in climate smart agroforestry system can create fast bioenergy potential without causing competition for land required for other purposes. The use of agroforestry systems can be a win-win solution offering agricultural production with fewer damaging environmental consequences. Using these participants, ladies and gentlemen to provide private checkpoints to support sustainable bioenergy expected to help solve the problem as more than half of the land targeted for the restoration is in a private hands. How sustainable bioenergy can be developed to avoid the food energy environment dilemma. What species are best for efficient bioenergy production on the degraded wetland and what the socio-economic and environmental outcome are for bioenergy. Revenue from bioenergy could help offset the high cost of restoring large areas of degraded wetland. Restoring wetland using bioenergy species would not only restore ecosystem services but also address energy deficiencies and promote clean and renewable energy. To conclude my remarks, bioenergy for landscape restoration can provide a potential alternative to meet growing energy demands while also contributing to global commitment on climate action. I thank you for your kind attention and wish decision will be a good opportunity to exchange our knowledge and experiences and able to strengthen our collaboration in restoring our tropical wetland and sustainable bioenergy. Thank you. Thank you, Paari, for the insightful speech highlighting the potential of bioenergy plantation for landscape restoration which could also provide a potential alternative to meet growing energy demands while also contributing to the global commitments in climate actions. Ladies and gentlemen, now we will go to the main agenda. We will listen some insightful presentations from five prominent speakers and we would like to remind every speaker only have 10 minutes approximately and we start the speaker presentation for the audience who join in person here you are encouraged to ask the question at the end of the presentation and for the audience who join online or virtual you can write comments in the Q&A box throughout the sessions. Without further ado we would like to invite Papa, Prof. Indro Yano Sushila Prof. Indro Yano as the chairman of the Association of Indonesia for Reconcession Holder would you please share with us how to enable microfinancing for bioenergy plantations in bitlands. Prof. Indro Yano Thank you, Ibu, Harini. Can I share my slides please? Thank you very much. So first of all, thank you very much for the invitations and happy Eid Mubarak who was celebrating Eid Uffi 3 and we are very happy to be joining you today. Next, or my slide please. I would like to share with you that Indonesia own the largest tropical bitland in the world 50 million hectares of those in Sumatra, in Kalimantah and Papua. You see, those are the location of all the bitlands in Indonesia. Next. And I'd like to share with you yes, we have to preserve this pit ecosystem because as mentioned is able to retain water we are able to store high level of carbon up to high level of greenhouse emission and it's very favorable to the damage including also forest fire or fire of forest. So we have to preserve this pit ecosystem. Next. We realize this has happened in 1997 it was happening again in 2015 so we have got to control that we should not have pit fires in our bitland area because they will provide big carbon emissions to our atmosphere it has to be preserve and conserve for our bitland. So for that reason also because of absurd water we have to have pitland to retain our water we have to keep our pitland wet in order that the carbon emission can be lower as low as possible. Next. So for that reason, I'd like to share with you the number. It was the greenhouse greenhouse emission in 2010 in Indonesia is around 1,334 million tons of carbon and you know the largest one coming from forestry 647 million tons of CO2 in 2010. Why? Because mostly due to pitland and forest fire during that time this number has to be reduced. Next. For that reason, next. There is a target at the end with the National Determine we have our emission target by 2030 is only 2,342 2.3 2.3 2.3 2 billion tons and 41% of those only 1 7 million tons of carbon can be emitted for Indonesia. So all of those can be achieved if we are able to preserve at our concern our pitland and also our forest. These are all the numbers that need to be follow in order to be able to get the NDC target by 2030. Next. So for that reason Indonesia have the target to restore over 2 million hectares of pitland in 7 provinces by 2030. We are going to work very hard to conduct mitigation action in order that we should be able to restore the 2 million hectares of pitland by 2030. By doing so, we should be able to reduce the emissions the carbon emissions from our area in order to meet our target 41% with the international collaboration and only 21% with our own activities. Next. We also already set our long term target by 2050 in order to get the target of 2050 in which we should be able also to get 140 million tons of carbon absorption. We have to do we have to reduce the pit composition we have to limit it as much as possible the pit fire or fire coming from pitland to manage the pit and put it on to wet the pit so that we should be able to reduce the emission as much as possible in this pitland area. So all of those the combination between pitland restoration and pitland management is to be combined together because by doing so again we should be able to provide work quality to to plan space for for the pitland area biomes trees produce biomes energy but at the same time also we should be able to reduce the amount of emission as much as possible. Next. I would like to share with you some number here that in recent position we have 537 units with license in order to do so we have to do what we call forestry multi-based activities and we can mix the activity of rehabilitation of without rotation and also we combine it with the pit restoration all of these can be used first to provide economic value of our pitland and at the same time also preserve our pitland area. Next. This is the way by doing what we call the culture or the culture when we put some species trees that can fit in the pitland area it can preserve our pit still remain wet it also can produce a productive production that can be used for our activities. Next. One of the example I would like to share with you this is the one that coming from our West Kalimantan Company we are commanding from the culture we are planting Gamal trees for biomes productions and Sarawangi for essential oil and Jelitum for latex productions all of those trees may provide a production at the same time also we preserve and conserve and restore our pitland in that area this is the Kalimantan. Next. One example also is Gamal the Gamal trees can be used in the big pitland and for the biomes production and from there we should produce vertical wood chips or wood talus that can be as a fit stock for our power plant electric power plant in Indonesia now it's ongoing to achieve our target providing biomes energy at the same time also preserve our pitland. Next. Next. Next slide please I hope that you can turn the slides can you help me put the slides but Indra Yonoh I think we are losing you we are losing your connection can you hear me by Indra Yonoh can you hear me Yes, can you hear me Okay, okay, can you see the slide No, I'm not Okay, wait a second Put the slide in the Gamal color the Calori value of the Gamal trees can you put the text over there and let's see the slides Well I only have 10 minutes so just like to end the conclusion we need to have some investment in order that we should be able to do mitigation action in the pitland area for that reasons I think when we are now planning to achieve our MBC target by 2030 we are practicing a forest and land use in a forest and land use Can you hear me Yes I like to make the conclusion that anyway we should be able to preserve conserve and also restore our pitland at the same time also producing valuable crops for biomed energy like the Gamal trees this one by next by doing so just put in the conclusion I spare it to put in the conclusion Okay, anyway Well, okay Directly in conclusion I think it's the time now to conduct some investment on mitigation actions Well, I think I have to conclude by presentation Thank you very much Thank you Thank you Thank you We appreciate your times and even though the connections are trouble but finally we you can conclude your presentation thanks again Ladies and gentlemen we can we can highlight in one sentence share with us how we can develop the business model for biomed energy production but at the same time also restoring degraded pitland also contributing to reducing greenhouse gas emissions Thank you and next we would like to invite the second speaker also chaining with us online there but from another city in Jakarta Indonesia Prof. Budi Laksono Prof. Budi as based on your experience Could you please share with us about the prospect of biomed energy plantation on degraded pitlands to support the restoration effort Prof. Budi Thank you Good morning ladies and gentlemen Firstly I would like to thank the ITPC who gave me opportunity to present my paper in this side event this morning I would like to present my paper entitled prospect of biomed energy plantation on degraded pitland to support restoration effort as we know that the global energy crisis in 2006 causing increasing biomed energy crisis has driven the world to emphasize the importance of environmental friendly renewable energy or biofuel the fuel of the Q2 refuel diesel fuel at the oil terminal as shown in this slide occurs again Indonesia in this year especially in outside Java for this purpose Indonesian government with the first national energy policy number 5 in 2006 has set a target of 5% renewable energy or NRI percentage of national energy needs by 2025 however 8 years later the policy was renewed with the government regulation energy number 74 in 2014 with the change in the target percentage of NRI and NLE by 23% of national energy needs in 2025 and 31% in 2050 due to decreasing fossil fuel and in the same year in 2006 the president assign Ministry of Forestry to play an important role in surprising biofuel material and granting expletic permit for the use of unproductive forest land for further biofuel development such as on ex-burn land, ex-mining land as well as degraded wet land from the deforestation rate in Indonesia in 1990 Indonesia has recorded the highest deforestation rate decreasing 3.5 million hectare per year in 1996 to 2000 sifara forest fire has triggered high deforestation in the country apart from mining and illegal logging activities that are not balanced with forest rehabilitation as well as the conversion of forest land into community settlement after the government carried out land and forest rehabilitation program starting from 2000 and improving forest governance deforestation rate continue to decline until 2017 in 2018 the ministry of environment and forestry issue a decree related to degraded land throughout Indonesia with a total array of 14 million hectares including about 2 million hectares of degraded wet land as described in this slide since then the government of Indonesia has launched an initiative to restore 14 million hectares of the degraded land by 2030 to achieve national climate and landscape resilience schools including bioenergy production with the added benefit of restoring degraded land and providing food and livelihood for local communities the restoring target include 2 million hectare of degraded wet land Lajat of the forest and degraded land particularly degraded wet land need a finable long term solution for restoration ideally one that ensures energy security without compromising food security or biodiversity conservation go go so there's a knowledge gap on the most adaptive bioenergy crop for degraded land the research of bioenergy species trial was conducted in Central Kalimantan as one of the largest amount of degraded land in Indonesia the species trial was established in 2016 a 2 hectare demonstration plot located in Bern and degraded wet land in Buntoy Village Pulang Pisao Central Kalimantan the trial compared the bioenergy species with the potential to survive in extreme environment it is KAMAL, Kaliandra, Kemiri Sunan, and Yamplung the study demonstrated that among for trial species Yamplung is the most adaptive bioenergy species for growth on degraded wet land in Central Kalimantan followed by Kemiri Sunan the growth rate on degraded wet land of Yamplung saw an increase for growth in height and stem diameter until the age of 6 years as shown in the graph on the slide Yamplung could survive in wide range of environmental condition and typically Yamplung is a study plan that can cruise in poor soil nutrient content due to the highly co-tolerant on the harsh environment condition since more than 50 years ago the species was planted for conservation and rehabilitation in certain part of Jaffa Island Indonesia the species tolerates a wide range of soil and will grow best in sandy well trend soil in coastal areas as well as soil with seasonal waterlogic the species cruise in natural to acid soil and also tolerance in shallow and salient soil it is a hard tree of tropical coastal areas that tolerates with salt spray trough and brief period of waterlogic soil it is also tolerates clay, cal-serius and rocky soil put in the highly-tolerant to the harsh environment condition the species was planted for conservation of common the course, windbreak and also for land rehabilitation in rocky soil, cal-serius and seasonal waterlogic area and currently we have been tried to plan Yamplung integrated pitland ex-burn land as well as ex-mining land Yamplung has multiple origin including is Africa India South is Asia, Australia Pacific and Indonesia, Yamplung is naturally distributed from Sumatra to Buk Wailan the differences of Yamplung, we can see in this slide the species naturally distributed in Indonesia from 0 to 300 meter above sea level it has the ability to grow on degraded land and marginal land no competition with food crops and it has multiple uses such as energy paramositical as well landscape restoration it has high food production around 20 ton per hectare per year and oil content up to 60% of dry seed wheat foods all year-round high plant survival ability in nature and long productive age up to 50 years Yamplung as oil is non-edible oils and potential as raw material for biodiesel and the biodiesel is compatible to diesel and possesses better lubrication capability and always can be utilized and has economic value the bifur content as described in the slide you can see that several Yamplung population outside java is higher than the population on java island high variation of bifur yet among the natural population suggest the necessity of species selection based on pro-finances for better yield another tabel so that crude oil content from the improved Yamplung population are produced 13% higher than the original seed source using the same pressing machine and the oil content can be increased with a more accurate press machine or with the solvent extraction method producing 20% higher than the original one for biodiesel production the excess waste could be more than 50% waste will be serious problem for the environment and human life then it should be processed and utilized for something useful which of Yamplung bifur industry include Shell, Keycoil, resin acid grease and glycerol the waste could be utilized to produce various products such as charcoal, ricket liquid smoke, feed compost, salt, medicine and cosmetic this could also increase the economic from Yamplung cultivation while at the same time reducing environmental pollution to follow up on the bioenergist pages try on decreed pitland in 2018 plantation trial of Yamplung were established on decreed pitland in Central Kalimantan on a broader scale this trial to obtain adaptability cruise on 2 type of decreed pitland in Central Kalimantan it is Tobogenus and Ombrogenus Beach which have slightly different physical and chemical soil characteristic the pitland in Kalampangan is categorized as Ombrogenus Beach former by Rainwater while the pitland in Buntoy is categorized as Tobogenus Beach formed by the topography of the basin area we can see in the graph the survival rate of Yamplung in the 3 years after planting in Kalampangan range it from 75% to 91% or in the period 82% this result is consistent with those from a previous Yamplung tire on decreed pitland and the high survival rate indicate that Yamplung is adaptable to the decreed pitland in Kalampangan there were increasing trend for hike and diameter stamp of earthworms for Yamplung trees in Kalampangan and at the age of 4 years several trees begin to bear fruit and in the Buntoy plot the Yamplung survival rate reach 81.25% and the survival rate was very similar with plantation plot in Kalampangan those early indication on Yamplung adaptation stability on decreed pitland the trend of trees hike and diameters stamp in Buntoy were also increase of mean growth performance for Yamplung trees the growth on the Yamplung trees in Buntoy was better and almost twice that of the Yamplung plot in Kalampangan at the same age those the growth performance of 4 years of Yamplung trees on topogino speed in Buntoy was better than on ombrogino speed in Kalampangan to bear fruit at age of 4 years and in the application of agroforestry system intercropping of Yamplung trees with various annual crop provides farmers with viable economic option at different scale intercropping on pitland with Yamplung has also been practiced in the study and so that with intercropping of seasonal crop the growth of Yamplung trees is better for the future the ability of to flower bear fruit and produce it is the key parameter to support the successful of breeding strategy program of Yamplung since flowering characteristic and seed productivity are important information in our study using the same genetic material flowering and fruiting in mineral soil was started flower at 1.5 years after plant faster than in exburn land and in pit soil the number of trees flowering were increased every year and to conclude this presentation several important point in the prospect of bioenergy plantation on degraded pitland to support restaurant effort as follow the credit land Indonesia in 2018 covering an area of 14 million hectare that must be rehabilitated until 2030 this effort is to support Indonesian national determined contribution on DC target which outline Indonesian transition to a low emission and climate resilient future adaptive and economical firework species unneeded by using for products without having to cut down including on degraded pitland and second, Yamplung or Calofilabino film is a non native pitland species and is highly adaptable type of degraded land because study indicate species in adaptable to degraded pitland in Kalampangan and Buntui Village in Central Kalimantan where it demonstrated survival rate of 32% and 81% respectively and third, the growth performance of 4 year old Yamplung trees on Tobogino speed and Ombrukino speed in Central Kalimantan indicate that Yamplung is promising and renewable biofuel However, for the research needed to examine the potential ecosystem services associated with growing Yamplung on degraded pitland and adoption for upscaling this model finally we would like to express our sincere thanks to all the institution for the good cooperation and have produced several work which are summarized in the book chapter Bionetry for Landscape Restoration and Livelihood Recreating Energy Smart Ecosystem on Degraded Landscape That's all for my presentation and thank you for your kind attention Thank you, Prof. Anny Thank you, Pavudi for sharing with us on the prospect of bioenergy plantations on degraded pitlands and also showing the result of your research that Yamplung is non-anti pitland species actually adaptable and will be promising species for restoring pitlands and renewable biofuel Thanks, Pavudi and next, we would like to invite our third speaker Dr. Mi-Hyun So as the scientist working on the International Forest Research Organization would you like to share with us on the environmental benefits on bioenergy tree production and degraded pitlands Mr. Mi-Hyun So Time is yours Thank you, Dr. Harini Good afternoon, everyone Selamat pagi and Anyeonghaseyo I'm Mi-Hyun So Today, I'm talking about the environmental benefits of bioenergy trees production Integrated Pitland Let me talk about background first Approximately 95% of Indonesia's pitlands are already degraded It's reported by FAO in 2012 The most widespread type of wetlands this is pitland and it's providing globally important ecological climate benefits and social economic benefits and it's important for biodiversity and also it's converted to agriculture with the severe pitfires It's releasing huge volumes of carbon dioxide into atmosphere and cause the severe damage to ecosystems and biodiversity Next please So what is pit? Pit has been on our planet for around 360 million years A type of organic soil made up of partly decomposed vegetation and also it's formed 4 centuries in waterlogged conditions So where can we find them? The vast majority of pitlands can be found in colder climates in temperate or boreal areas Tropical countries with large stores of pit include the DR Congo, Peru and Indonesia Next please So why are pitlands important? Millions of people live on pitlands for their livelihoods and it's providing food clean water and other benefits to people and also it prevents droughts, floods and intrusion of salt water So hosting in dangerous species like orangutans and the Sumatran tiger so it's dedicated to biodiversity It has a critical role in climate change, mitigation and adaptation So just pitlands contain twice as much carbon as all the worst forests and four times as much as the atmosphere So let's talk about the forest fire Forest fires cause water resource damage carbon emissions destruction of vegetation biodiversity loss, health expense business travel destruction the cost of ecosystem restoration and global warming Pitland fires have significant impacts on soil, mesofolna and macro-volna communities 7 provinces were severely affected by haze Riau, Zambi, Sumatran West Kalimantan, East Kalimantan Central Kalimantan and Papua in 2015 Over 2.6 million hectares of burnt area 33% of pitland was the remainder mineral land In 2015 mineral and pitfire burnt 2.6 million hectares that covers these kind of provinces and it costed US$16.1 billion So the cost of fire and haze was a lot, so I was amazed and I typed twice Next please So pitlands in tropical regions store the most carbon When pit burns enormous levels of carbon dioxide and other gases are emitted into atmosphere Forest fires in Indonesia in September and October of 2015 released 11.3 million tons of carbon dioxide every day higher than the daily emissions produced by the entire European Union over the same period That's less than 0.4% of the world's surface is made up of drained and degrading pitlands but these account for 5% of all global emissions of carbon dioxide produced directly by human activities In the pitlands of Borneo Peninsula Malaysia and Sumatra alone forest cover fell by more than 1990-2010 It's from 73% to 36% So let me share our part of research This is kind of presented by Dr. Laxano but I'll just briefly mention about this The research about the bio-tree species on deraided pitlands in Puntoi, Central Kalimantan We've been investing factors affecting preferences for restoration tree species by analyzing responses 150 landowners were investigated with bio-experience in Puntoi village As a result, 8% of landowners prefer Nyanplong for bio-energy production They took advantage of Nyanplong because it is capable of handling the uncertainty of the bio-energy market as they had additional jobs and income 2. It is helpful for agricultural expansion to improve their technical capability So in terms of suitability Nyanplong is the most adaptable species followed by Camry-Suna So both species perform better under agroforestry than monoculture treatments So you can read more in our books later Producing renewable energy as well as restoring landscapes We'd like to introduce two species One is Bonggamia and two is Bamboo Bonggamia is kind of well-known in Indonesia and kind of a new star for us and Bamboo is traditionally well-known not only in Indonesia but all over Asia So Bonggamia has of course Indonesia Sumatra, Java, Bali, and Maluku and Bamboo has growing demand for energy in Indonesia is driven by population growth urbanization and economic development I won't tell everything in detail here because time is limited So our team planted Bonggamia in Bali So this is the picture that we tried to plant small species there and that's Bamboo the famous biospecies bioenergy species So this is my presentation Thank you for listening Terima kasih banyak Thank you Mikiun for sharing with us also from your research emphasizing Nyamblung as well as a promising species and renewable biofuil and also you mentioned about the other two alternative species Bonggamia and Bamboo and next I think we would like to invite our next speaker Dr. Suho Choi Dr. Choi we heard that the Avoco has support some work related with forest land restoration we would like to hear more on Avoco sites program on restoration and management of pitlands to fulfill the bioenergy demands Dr. Choi, time is yours Good morning everyone My name is Suho Choi I'm in charge of project implementation and monitoring at the Asian Forest Cooperation Organization Secretariat On behalf of the Asian Forest Cooperation Organization I'd like to express my sincere gratitude to International Tropical Pitland Center Today I'm here Today I go over Introduction to Avoco Second Agroforestry Practice on Pitland Indonesia Third Way Forward for Future Cooperation At first I'd like to introduce briefly the Asian Forest Cooperation Organization Avoco Avoco is a treaty-based intergovernmental organization was established in 2018 This is a four-year baby, people say Three up to now 13 countries joined Avoco as official parties and Malaysia, Singapore, and the status observer This slide showed Avoco Vision and Mission In order to achieve the Avoco objective and contribute to the global goals Avoco's strategic plan 2019-2023 was adopted at the first Avoco Assembly Five priority areas were identified through the analysis of internal and external factors Considering the time limitation Please report to the slide Regarding the Avoco project portfolio Six projects were completed 23 projects are ongoing and eight projects are on the inception arrangement Next, I'd like to share Agroforestry practice on Pitland Indonesia Avoco already implemented the project entitled Capacity Building for Land-State Approach to support the sustainable natural resources management in Brunei, Darus Alam, Indonesia, Philippines, and Singapore shortly be called BEAPS project including Indonesia With budget approximately 540,000 USD for three years from 2016 to 2019 In Indonesia implementing agency formal, please report formal information Forest Research and Development Center the Ministry of Environment and for these days the institution is changed The project site located in the Dumbang, Nusa I can miss import, I'll change Dumbang, Nusa Central Kalimantan, Indonesia Why do we Avoco implemented BEAPS project Indonesia Indonesia, the pit sample forest or excessively log then open to establish oil pump and purport plantation The PSF and land fire in Central Kalimantan in 2015 has become the first source of green gas emission for 15.95 million tons of CO2 emission per day The rehabilitation of the afterburned PSF need to consider adaptive species and prove to have a good survival rate to minimize the poor soil condition with physical and chemical properties of pit after fires In addition to technical aspect of PSF restoration People center development is necessary through a landscape approach Building human capabilities people's well-being and quality of life Regarding the BEAPS project Indonesia Avoco sought the destroying pitland forest through landscape approaches by promoting eco-friendly eco forest practice for farmers I would like to share the main output for this project First, two HETA demonstration plant in Tumbang, Nusa Central Kalimantan was established in order to test adaptive forest tree species to pitland restoration and to use as a learning site for community-based pitland management Kenal juga diberikan untuk water laser BOA untuk forest fire fighting dan aquaculture as an alternate income source ini adalah bankhouse dan ini digunakan untuk project management dan capacity building program Saya juga membuat model agro forest capacity building program yang dibuat di pitland optimization menggunakan model agro forest yang ini dibuat oleh pelanggan yang terbaik ini adalah pelanggan yang terkenal di Kalimantan juga ini adalah tempat yang terkenal di Kalimantan juga kita pergi ke CCV di seluruh negara ini juga eksperimen microboos di komposisi was test saya akan skip detail akhirnya saya akan memuatkan untuk perusahaan depan bagaimanapun bagaimanapun bagaimanapun ini adalah menyebabkan sosial, ekonomi dan perusahaan bagi perusahaan biologi di pitland dan perusahaan untuk produksi biologi di pitland saya akan memuatkan untuk perusahaan depan bagi perusahaan depan yang terbaik bisa menghasilkan menggunakan neutralitas pada tahun 2015 juga ini sangat penting untuk menemukan menggunakan sejarah dan mencari masalah yang berbeda seperti sejarah energi, perusahaan, perusahaan, perusahaan, mungkin sebelumnya karena juga menyebabkan sejarah sejarah apokos projek yang pertama yang kedua yang ketiga maksudnya sejarah sejarah sejarah sejarah projek dan juga sejarah sejarah apokos sejarah apokos projek ini adalah sejarah saya ini adalah sejarah saya sejarah sejarah saya mungkin dengan dengan sejarah projek sejarah projek dan juga apokos apokos mungkin apokos sejarah sejarah projek sejarah sejarah apokos projek apokos projek perusahaan sejarah apokos projek anda bisa menggunakan semuanya dengan sejarah projek dan menggunakan semuanya dan keduanya kita akan memaksa memang yg berhasil dannya kita akan mempunyai beberapa proses pembinaan yang dipercaya dan membuat berplansu dan saluran dan keduanya akan membuat Jika proyeknya telah diperlukan di masa depan, mungkin apokoprojekt pengalaman apokoprojekt mungkin sistem sisa-sisa dan sistem sida-sida yang sangat penting untuk mengambil lantai suatu dunia. Saya tidak beri informasi yang terdetekli di sini. Tolong beri informasi di slide ini juga. Ini sangat penting untuk mengambil sisi sistem, sisi, dan sisi supply. Pertama-tama, apoko mengikut kompleti proyek biasa Indonesia apoko dan Indonesia tidak melakukan proyek FACE 2, yang dapat mengalami alasan proyek sebelumnya. Pertama, bagi pengalaman alasan dan pengalaman alasan, apoko dapat mengalami alasan dan pengalaman alasan mengalami alasan dan pengalaman alasan. Saya harap itu, saya percaya bahwa alasan dan pengalaman alasan yang mengalami alasan dapat digunakan untuk mengalami alasan dan mengalami alasan biasa. Terima kasih. Terima kasih, Dr. Che, untuk prosesinya. Dan juga, kami mengenali alasan apoko untuk Indonesia, terutama dalam proyek agrofresi untuk mengalami alasan biasa di Indonesia. Alasan apoko juga mempunyai proyek biasa di alasan agrofresi di Indonesia. Kita lihat bahwa ada peluang, untuk mengalami alasan di sini. Alasan apoko juga mengalami alasan dan pengalaman alasan di Indonesia dan semoga jika kita dapat melihat dari alasan Dr. Che, ada juga beberapa peluang yang kita dapat membuat proyek biasa untuk mengalami alasan biasa terutama di restorasi dan pengalaman alasan biasa untuk mengalami alasan biasa. Pertama, teman-teman dan teman-teman, saya rasa kita tahu dalam alasan terakhir, tapi bukan Dr. Lee Speaker, Dr. Imla Baral. Dia pesan kordinator di alasan biasa, bekerja di Center for International Forestry Research, tapi sebelum prosesinya, memberikan saya mengenali tentang publikasi baru atau sebuah buku yang dibuat oleh Alasan Biasa dan Alasan Biasa. Ini sebuah buku yang saya harap setelah prosesinya, semua orang bisa memiliki alasan ini. Sebuah buku ini sebenarnya melihat bagaimana dalam kondisi yang benar, objektif alasan biasa dan produksi bioenergis bisa disenergizan. Ini sebuah buku yang beritahu kami tentang alasan biasa dari sekitar 6 tahun dari Inisiatif Pioneering Indonesia, bagaimana kita bisa menggambarkan objektif ini dan juga bekerja dengan orang-orang. Kita bisa memiliki alasan lebih banyak tentang objektif ini ketika kita bisa mendengar dari kondisi kondisi kondisi Dr. Simlal Baral. Anda bisa berkongsi dengan kami bagaimana projek atau bagaimana buku berkongsi tentang objektif ini. Dan terima kasih, saya ada satu. Terima kasih. Terima kasih Prof. Haruni Kishnawati. Selamat pagi di sini dan selamat pagi ke teman-teman di Indonesia dan di Restoran Asia. Bisa saya memberi saya? Ya. Ya, Prof. Haruni mengatakan bahwa kita mempunyai 6 tahun kerja sebagai buku ini yang akan bergantung kepada semua Anda seperti online seperti ini. Kita semua tahu bahwa kita ingin menyelamatkan buku ini jadi kita mempunyai kondisi kondisi kondisi kondisi tapi ini ada. Sebelum itu, saya akan menjelaskan beberapa pekerjaan kita dalam satu contoh. Bukan semua. Buku ini mempunyai 14 kes yang berbeda dari Indonesia dan keadaan kelasan dari keadaan keadaan keadaan, keadaan keadaan, keadaan, dan juga perusahaan keadaan, model bisnis, semua keadaan keadaan di buku ini. Jadi sekarang saya akan memberikan satu contoh agro silvofisari keadaan keadaan yang berbeda, energi, dan perusahaan. Kita mendengar banyak tentang energi, tapi disini saya juga berbicara tentang produksi makanan, energi, dan perusahaan bisa dibunuh dengan keadaan keadaan keadaan. Jadi, saya tidak perlu berbicara banyak karena keadaan keadaan keadaan di Pak Ari memberikan sebuah background perusahaan dan energi bisa disinerzai, bukan kompetisi. Jadi di sini saya akan memberikan beberapa background. Perusahaan beri ekosistem kritikal dan perusahaan seperti makanan, energi, regulasi klimat, dan juga konservasi biodiversitas. Namun, keadaan keadaan keadaan keadaan telah mengubah struktur dan fungsi perusahaan yang membuat keadaan keadaan keadaan keadaan keadaan keadaan, perusahaan ekosistem, perusahaan dan perusahaan, yang penting untuk keadaan kita. Perusahaan ini memiliki perhatian oleh pelajar, polisi, dan juga praktisnya di luar. Jadi ada keadaan keadaan keadaan keadaan keadaan keadaan, seperti kita tidak bisa menunggu lagi. Jadi kita harus mulai lebih cepat. Jadi ini berbicara bagaimana agrosil ofisari yang berbicara agroforestry sistem. Perusahaan bisa memiliki keadaan keadaan keadaan untuk makanan, energi, dan konservasi perusahaan. Jadi perusahaan kita berbicara di mineral, seperti yang lain, dan juga keadaan keadaan keadaan, berbicara keadaan keadaan keadaan keadaan, tapi di sini saya menghidupi kerja di keadaan keadaan keadaan. Jadi perusahaan kita adalah 4 perusahaan yang kita berbicara. Ada banyak perusahaan dan perusahaan, banyak tool, banyak metrologi, tapi kita bilang sangat mudah. Pada perusahaan yang benar, untuk perusahaan yang benar, ketika menggantikan keadaan keadaan keadaan keadaan. Itu adalah pilihan yang penting. Jadi pertama kita memiliki analisi geospatial untuk melihat keadaan keadaan keadaan keadaan, seperti keadaan keadaan keadaan keadaan, keadaan keadaan keadaan, tergantikan di sebuah keadaan keadaan keadaan keadaan keadaan, tergantikan di sebuah keadaan keadaan, keadaan keadaan, dan juga perusahaan-perusahaan yang benar, apa yang bisa dilihat ke dalam keadaan keadaan keadaan keadaan keadaan. Kita juga mengerti perusahaan-perusahaan yang memiliki Dr. Shol dalam pembentangan keadaan keadaan keadaan keadaan keadaan. Dan kita mulai pelajari dan demo yang dibelik oleh Prof. Loxano tadi. Dan kita juga melihat kemungkinan untuk mengerasakan dan mengerasakan di tempat yang lain atau kemungkinan. Jadi, alasan yang saya berbincangkan di sini adalah agroforestry, yang lebih particular agro silo. Ini adalah pitlian di Indonesia, dan di bawah itu adalah pitlian yang digerasakan di Indonesia. Jadi, seperti yang Anda lihat, dalam kalimantan central dan Sumatra Seluruh, ada banyak pitlian yang digerasakan, jadi di mana kita fokus pada kerja. Jadi, alasan yang kita mencari di sini adalah agro silvo, yang lebih particular agro silo, yang lebih particular agro silo, yang lebih particular agro silo, dan memperkenalkan alasan agrikulti di pitlian. Jadi, biasanya mereka melakukan peralatan sonor, jadi alasan yang digerasakan di pitlian, dan memberi pembentangan pada petal. Tapi kita cuba menggantikan mereka untuk menggunakan petal. Jadi, alasan agrikulti akan digerasakan, memperkenalkan alasan agrikulti, yang memperkenalkan biopul, dan alasan biomaterial yang menggantikan alasan, dan menggantikan alasan agrikulti. Jadi, alasan agrikulti menggantikan semua, seperti makanan, energi, dan juga alasan biomaterial. Jadi, dari pekerjaan kita, banyak yang diperkenalkan dalam buku ini dan beberapa yang masih diperkenalkan. Jadi, alasan agrikulti digerasakan. Jadi, dari pekerjaan kita, seperti di land, mereka membuat sekitar 1 ton per hektar. Sekarang 3.4 ton per hektar, sesuatu seperti itu. Jadi, 3 kali digerasakan pada petal. Jadi, pembentangan itu diperkenalkan. Biasanya biomaterial dan biomaterial. Jadi, ini yang kita menggantifkan. Pada saat ini, alasan agrikulti menggantikan, bukan hanya alasan agrikulti, tapi seluruh alasan agrikulti karena pembentangan melindungi land, karena jika alasan agrikulti ada di sana, tidak ada produksi. Dan menggantifkan alasan agrikulti dan dari dua cara. Satu adalah alasan agrikulti dari petal, dan lainnya, dengan alasan agrikulti. Dan menggantifkan alasan biodiversitas karena aktivitas ini. Jadi, beberapa alasan agrikulti dari pekerjaan kita, jika menggantifkan, tidak menggantifkan, alasan agrikulti bisa diperkenalkan alasan agrikulti dan biomaterial. Sebelum menggantifkan alasan agrikulti dan juga menggantifkan alasan agrikulti, alasan agrikulti, alasan agrikulti, alasan biodiversitas, dan sebagainya. Jadi, alasan agrikulti kita adalah untuk menggantifkan alasan agrikulti dari pelajar kawasan. Jadi, saya mengatakan 3 hektar, 5 hektar, 10 hektar perjalanan. Dr. Choy juga mengatakan alasan agrikulti, alasan agrikulti, dan itu tidak bisa dipercayakan dengan ini. Kita harus menggantifkan dan menggantifkan. Jadi, kami ingin memuatkan kita semua di sini atau dalam partner Indonesia. Jadi, kita harus menemukan bagaimana kita menggantifkan dan menggantifkan prakitas ini. Dan kerjaan. Terima kasih banyak untuk menggantifkan. Terima kasih, Himlal, untuk berkongsi dengan kami tentang buku-buu Anda, juga menghidupi result di energi bioenegi, yang sebenarnya mengenai produktivitas land, mengenai biomasi dan produk biomaterial, mengenai kekuatan karbon, mengenai kekuatan biodeversitas, dan juga mengenai kekuatan. Saya rasa kita sudah berkongsi dengan semua bahkan-bahkan, sudah berkongsi dengan mereka. Biar saya berikan kesempatan sekarang ke bahkan-bahkan. Jika ada orang-orang yang datang atau mengajar kami di sini, jika ada pertanyaan, kamu bisa memilih tangan dan memperkenalkan diri dan ke mana pertanyaan akan dilatih. Ya, kamu bisa menggunakan mikrofon dan memperkenalkan diri, tolong. Nama saya Ayanuddin dari SPIMPM Forestry Departement Malaysia. Saya hanya ingin meminta Pak Dudi untuk menggunakan kalifilm. Pak, Dudi Leksonok, okey. Silakan, tolonglah. Untuk kita, ketika meluar kalifilm, sama seperti di mineral, dan juga ketika dilatih, itu pertanyaan pertama. Nama dua, kamu tahu kalifilm adalah tiga besar, kan? Jadi ketika meluar kalifilm, ketika meluar kalifilm, ketika meluar kalifilm, atau ketika meluar kalifilm, biasanya apa yang terjadi adalah ketika meluar kalifilm ketika kamu meluar kalifilm. Itu pertanyaan saya. Terima kasih banyak. Oke, terima kasih. Pak Dudi, kamu ingin menjawab pertanyaan? Ya, terima kasih. Pertanyaan pertama, terima kasih kepada kalifilm di kalifilm. Sebenarnya, keputusan kita, jadi kalifilm dan kalifilm di Jampung, di tempat yang berbeda dengan perubahan yang berbeda akan memberikan kalifilm dan kalifilm terhadap kualitasan internasinya dan kualitasan internasinya. Dalam perubahan kita, kalifilm dan kalifilm di mineral kalifilm, mulai meluar kalifilm setelah meluar kalifilm. Tapi, dalam kondisi perubahan yang berbeda, seperti di lantai di Kalimantan, kalifilm mulai meluar kalifilm setelah meluar kalifilm setelah meluar kalifilm. Dalam perubahan yang berbeda, kalifilm mulai dari setelah 4 tahun. Setelah 4 tahun, kalifilm lebih berbeda dari mineral kalifilm. Ini sebabnya kondisi perubahan yang berbeda sangat berbeda. Pertanyaan kedua, saya tidak jelas. Anda harus berhubungan pada pertanyaan. Pertanyaan saya adalah apabila kita mempunyai 3 kondisi perubahan yang berbeda setelah meluar kalifilm setelah meluar kalifilm atau meluar kalifilm. Setelah kalifilm adalah kondisi besar, saya harus berhubungan. Anda melihat bahwa ini akan berlaku? Ya. Sebelum saya berpercayakan, kami mulai 6 tahun lalu. Kita tidak memiliki apa-apa tentang kalifilm setelah kalifilm seperti pikwan. Jadi, kami masih menunggu kalifilm di Petland setelah 10 tahun. Mungkin kami bisa melihat kalifilm di Petland. Dan pelajaran kami juga selama 4 tahun di Tobogenus dan Ombrukenus di Sentral Kalimantan. Karena ini tidak spesies natif di Petland. Jadi, kami harus membuat sampai kalifilm lebih dari 10 tahun. Terima kasih. Terima kasih, Prabudi, untuk jawabannya. Saya rasa ada pertanyaan dari pertunjukan kami online. Pertama, saya ingin membaca pertanyaan dari Q&A pemeriksaan. Pertama, saya rasa saya bisa membaca dari Yuan Danis Waiu Salam. Ya. Saya rasa ini juga berhati-hati dengan Prabudi. Saya bisa membaca. Ada apa-apa pemeriksaan yang terbaik untuk membuat kalifilm di Petland di Petland? Dalam kalifilm dan yang kedua, bisa biasanya menggunakan bioenergis bagaimana efisien energi ini dibandingkan dengan pemeriksaan? Prabudi, Anda mau jawab pertanyaan? Pertama, saya akan coba jawab pertanyaan ini. Saya rasa pemeriksaan teknik menggantikan Petland karena ini seharusnya pemeriksaan. Pemeriksaan menggantikan pemeriksaan atau membuat pemeriksaan di Plan supaya tidak terlalu lama. Pemeriksaan ini akan membantu pemeriksaan dan tiga pemeriksaan. Pertama, pemeriksaan Fertilizer tidak mengingatkan pemeriksaan dan pemeriksaan pemeriksaan pemeriksaan di Petland. Dalam pemeriksaan, 50 gram pemeriksaan pemeriksaan dibandingkan dengan 200 gram pemeriksaan. Mungkin karena tidak terlalu banyak pemeriksaan pemeriksaan di Petland. Oke. Terima kasih, Prabudi. Saya rasa kita juga ada pertanyaan dari chat. Saya rasa ini dari Paari. Ya, saya rasa ya, saya ada. Oke, saya rasa pertanyaan akan menjadi di Royono. Ada beberapa pertanyaan. Pertama, bagaimana tiga pemeriksaan bisa dipersiapkan sebagai pemeriksaan pemeriksaan menggantikan pemeriksaan pemeriksaan di Indonesia yang tidak hanya pemeriksaan, atau pemeriksaan atau pemeriksaan tetapi juga pemeriksaan. Pertama, bagaimana tiga pemeriksaan yang akan dipersiapkan untuk menggantikan pemeriksaan bioenergis yang lebih sulit daripada pemeriksaan COS bioenergi pemeriksaan. Pertama, bagaimana tiga pemeriksaan yang akan dipersiapkan untuk menggantikan pemeriksaan bioenergi di Bitlands. Saya rasa ini bisa dipersiapkan oleh Prof. Indro Yono atau jika pemeriksaan akan ingin menjawab mereka juga. Pertama, saya ingin memberikan peluang untuk Prof. Indro Yono jika ingin menjawab pertanyaan, atau mungkin dari pertanyaan? Oke. Ada apa-apa? Ada yang dari Prof. Indro Yono yang ingin menjawab? Oke, saya akan memberikan peluang untuk pemeriksaan yang ingin menjawab dari tiga pertanyaan. Ya, Anda bisa menggunakan mikrofon. Terima kasih banyak pertanyaan, tapi jelas saya dapat menjawab dengan baik-baik saja. Pertama, saya ingin memberikan peluang untuk memberi peluang dengan Anda. Kami menggantikan pertanyaan untuk pertanyaan. Itu menggantikan peluang secara sosial juga. Apabila kami dapat pertanyaan dengan tiga pertanyaan, itu bisa menggantikan peluang dengan tiga pertanyaan. Itu bisa menggantikan peluang, dan juga jika kami bisa menggantikan pertanyaan, kita bisa menggantikan juga. Kami berharap sekarang bahwa kami berharap menggantikan untuk membuat proses untuk peluang berkomunikasi. Dan juga, tidak hanya untuk profit, seperti yang kami tahu, kami percaya bahwa keadaan dan komunitas di Indonesia juga. Saya harap itu bisa menjawab untuk peluang berkomunikasi. Saya berharap bisa menggantikan pertanyaan menggantikan peluang dengan tiga pertanyaan. Saya berharap bisa menggantikan peluang berkomunikasi. Saya berharap bisa menggantikan peluang menggantikan peluang. Setiap hari, kami berharap menggantikan pertanyaan untuk peluang dan pertanyaan untuk peluang. Jadi, kami tahu bahwa bahwa sisi seperti Nampoen, kami menghormati di sini, tetapi kami juga berusaha untuk menggantikan pertanyaan. Jadi, kami hanya menggantikan pertanyaan. Jadi, kami tidak menggantikan pertanyaan seperti Kaliandra, Mal, dan lainnya. Kami akan menghormati semua pertanyaan. Tapi di sini, kami hanya menggantikan pertanyaan. Jadi, kami bisa menggantikan pertanyaan. Dan itu adalah pertanyaan yang penting. Jadi, kami akan menggantikan pertanyaan yang penting. Kami tidak menggantikan pertanyaan tentang pertanyaan Nampoen. Dan di sisi-sisi seperti potensi yang menggantikan pertanyaan untuk produsinya. Jadi, kami menghormati pertanyaan dari Hany. Ini sangat banyak pertanyaan dari Hany dan lain produsinya. Terima kasih, Himlal, untuk jawabannya. Ada ada pertanyaan dari audience? Oke. Tolong memperkenalkan diri. Untuk menghormati pertanyaan. Dan ada beberapa idea untuk berbicara tentang pertanyaan. Pertama, kita memiliki provisinya yang memiliki memiliki memiliki pertanyaan. Untuk memiliki pertanyaan. Yang tersebut yang dilakukan di sini. Mereka memiliki pertanyaan yang tersebut. Yang tersebut adalah memiliki memiliki memiliki memiliki memiliki memiliki memiliki memiliki memiliki memiliki memiliki memiliki memiliki memiliki memiliki memiliki memiliki memiliki memiliki memiliki yang berlaku dengan beberapa pengalaman. Kami memiliki alasan dari pengalaman emisi sehingga pengalaman tersebut berlaku. Dan kemudian kami memiliki alasan yang berlaku, tapi tidak semua pengalaman yang tersebut berlaku, tetapi kami memiliki pengalaman Dan juga menggunakan perangkatan yang besar. Dan tidak ada keadaan yang menggunakan perangkatan yang berbeda dengan perangkatan yang berbeda. Dan Anda tidak dapat menggunakan perangkatan yang berbeda dengan keadaan yang lebih besar. Tapi dengan keadaan yang lebih tinggi, seperti yang dipercayai di sini, dan kamu dapat membuat hal. Jadi, ini adalah sebuah suatu yang terkenal dalam pengalaman, dan terima kasih kepada semua pengalaman yang membawa soal ini, karena ini bukan hanya sebuah pengalaman yang terkenal, ini adalah sebuah pengalaman yang terkenal, untuk menggunakan pemeriksaan resursi. Dan setelah menggunakan energi, atau apa-apa saja, dia tidak menghubungi pemeriksaan pemeriksaan pemeriksaan pemeriksaan dan menggantikan pemeriksaan. Dan kemudian, kita melihat pemeriksaan kembali dari pemeriksaan pemeriksaan dan bisa menggunakan pemeriksaan untuk menggunakan pemeriksaan untuk menggunakan pemeriksaan dari pemeriksaan pemeriksaan. Itu akan menjadi sukses yang terjadi. Terima kasih. Terima kasih. Saya tahu nama kamu. Maaf. Kamu tidak memperkenalkan? Oh, okey. Terima kasih banyak untuk berkongsi pengetahuan dan pengalaman dalam pemeriksaan ini. Jika tidak ada pertanyaan lain, dapatkah kita periksa bahwa kita masih ada pertanyaan dari pemeriksaan pemeriksaan? Ya. Saya akan mencoba menjawab pertanyaan dari Bapak Sugyardo, Prof Haruni. Tolong. Pertanyaan tentang pengetahuan pemeriksaan. Dan Bapak Sugyardo berkongsi pengetahuan dalam pengetahuan pengetahuan pengetahuan. Ya. Setelah menggunakan pengetahuan bisnis dan pengetahuan pengetahuan untuk KaloFilm, tahun ini, Pemeriksaan Pemeriksaan berkongsi saya untuk menggunakan pengetahuan KaloFilm pada pemeriksaan industri. Sudah mulai 2,000 hektar pengetahuan untuk menjelaskan pengetahuan pengetahuan terutama untuk Bayu Aftur. Dan pengetahuan pengetahuan untuk KaloFilm untuk Bayu Aftur bisa membuat 1,000 ton per tahun atau sekitar 2,000 ton pengetahuan KaloFilm. Jadi ini adalah pengetahuan kita untuk pengetahuan KaloFilm untuk pengetahuan pengetahuan. Karena Bayu Aftur meminta kita untuk menggunakan pengetahuan Pemeriksaan Bayu Aftur. Terima kasih. Terima kasih, Pemeriksaan Pemeriksaan, untuk jawab pertanyaannya. Saya rasa kita sudah sudah 2 jam, maaf, 1 jam dan 30 minit sekarang dan kita sudah selesai. Saya rasa kita sudah selesai. Dan kalau saya bisa berbicara untuk 3 pengetahuan. Saya rasa tergantung pemeriksaan dari pengetahuan dan pemeriksaan dan pemeriksaan yang kita punya dari 5 pengetahuan dan juga pemeriksaan aktif dari pemeriksaan. Mereka memperkenalkan kita atau memperkenalkan kita hari ini dan juga dari pengetahuan online. Saya rasa jika kita memperkenalkan pengetahuan, kita bisa memperkenalkan energi, dan juga untuk produk biomaterial. Pengetahuan biomaterial menghadap pesan dan menghadap aktivitas yang telah dikulinkan oleh pemeriksaan. Ia bisa menemukan juga tarjat nasional seperti makanan dan kemahiran energi, kemahiran, dan konservasi kemahiran. Pada setelah kemahiran, kita bisa memperkenalkan dari pemeriksaan yang telah dikulinkan dengan pemeriksaan dan pemeriksaan. Mungkin pemeriksaan, pemeriksaan dan pemeriksaan. Untuk pemeriksaan. Saya harap semua kita punya hari ini yang menolong kita. Dan terutama depan pemeriksaan. Saya ingin berterima kasih untuk pemeriksaan Arisu Dianto yang telah bersama kita di online. Sehingga pemeriksaan, kami sangat mengharapkan masa kita. Dan juga untuk semua pemeriksaan. Dan tentu pemeriksaan yang bersama kita di sini di bilik ini. Dan juga mengharapkan pemeriksaan. Saya rasa ini akhir pemeriksaan. Tolong menolong kami berterima kasih kepada semua kami. Terima kasih. Tapi sebelum kita bisa hidup di bilik ini, saya rasa kita ada sesuatu yang akan berbagi bersama kamu semua. Semoga semua orang bisa memiliki satu. Jika tidak, kamu bisa memiliki himlal. Pertama, kami akan meminta pemeriksaan yang mengharapkan kita di sini. Pemeriksaan dulu. Dan jangan risau untuk pemeriksaan. Saya rasa ini akhir pemeriksaan. Terima kasih lagi. Dan untuk semua pemeriksaan, saya akan memiliki bagian yang baik. Dan saya rasa ada pemeriksaan yang bisa menerima pemeriksaan.