Asia Plantation Capital Thailand Reports Brand New High Numbers At General Meeting

Asia Plantation Capital Thailand hosted a record variety of more than 300 Thailand-based plantation owners and stakeholders at its current Thai Yearly General Fulfilling (AGM), kept in Bangkok on the 11th of October 2014..

Reporting a brand-new high of US$ 53.5 million in earnings in the 2013 fiscal year, and going beyond US$ 6 million in payments for the very first time, updates were likewise provided on the ongoing growth and acquisition of plantations in Thailand, in addition to significant growth into Malaysia and other essential Asian nations.

Other highlights consisted of the intro of brand-new methods and innovations created to enhance the production of Agarwood and Oud – in addition to other final product from its agroforestry, teak and bamboo tasks. This is a bulk of the business’s continuous dedication to research study and advancement throughout all its core plantation sectors.

The business likewise revealed the official facility of its own Scientific Advisory Board, comprised of leading clinical consultants and academics from the throughout the Asia Pacific area, all whom have tested and useful experience in the sectors where the business runs.

Thailand-based Scientific Advisory Board member, Associate Professor Dr Pakamas Chetpattananondh – from the Prince of Songkla University – upgraded the reader on the present advancements within APC’s research study programs. This consisted of the inoculation and processing of Agarwood and Oud, in addition to the current discoveries for possible usages. These have a direct influence on appreciating Oud, with commensurate boosts in the business’s market value.

Likewise upgraded were the business’s additional advancements on building products from brand-new innovations based around bamboo; consisting of the business’s own strengthened concrete structure systems and crafted building boards. On a technical basis, these have actually both been revealed to exceed other present systems in usage, and are both environment-friendly and expense effective.

The AGM visited agents from associate business (such as EcoTech Asia and Fragrance Du Bois) notifying guests of the continuous chances that they imagine through their collaborations with Asia Plantation Capital..
EcoTech will certainly be presenting eco-friendly items to the marketplace in the near future. These will certainly consist of bamboo bikes, bamboo flooring, crafted building items, as well as bamboo baggage. To display these systems, the business is currently deploying the innovations in the building of its own rental properties in Thailand’s Royal Beach Resort in Hua Hin.

Brand Director for Fragrance Du Bois, Nicola Parker, indicated the possibility of a US$ 36 billion international scent market in 2018 (as reported by GIA – Global Industry Analysts), up from an anticipated US$ 33billion in 2015. This bodes exceptionally well in regards to the possible need for Oud-based Fragrances.

On the back of this need, the Fragrance Du Bois brand is now taken part in a program of opening brand-new stores and outlets in essential markets around the globe — under its ownership, however in association with essential strategic partners. Fragrance Du Bois has actually likewise engaged the services of worldwide law practice K and L Gates, to recommend the business on a possible AIM listing on the London Stock Exchange for the fast-growing sustainable luxury brand. K and L Gates is a leading IPO legal professional, and has a specifically high level of experience with business based in Asia.

With equivalent value provided to business activities, there were likewise updates en routes where APC has actually engaged the regional neighborhoods in the plantation areas where they run. Dealing with both staff members and their households, APC is making a substantial financial investment in the advancement of neighborhoods and societies, ameliorating operating and social conditions and boosting facilities to develop much better futures for the APC household.
A heart-warming and poignant story was related about how the whole Asia Plantation Capital household rallied around a staff member whose house and all his household’s belongings were ruined in 2014 by fire. His residence was reconstructed (in record time) together with every possible property changed, therefore he and his household really rapidly belonged to call house when again.

“I am happy by exactly what Asia Plantation Capital has actually accomplished in the reasonably brief time we have actually stayed in business,” stated Barry Rawlinson, Chief Executive Officer – Asia Pacific. “Not just have we had the ability to offer all our stakeholders a strong return on the plantation tasks that we handle for them, however we have actually likewise adhered to our values, and satisfied our objective of developing the neighborhoods that we remain in.”.
He continued, “Our stakeholders, investors and the senior management group at the AGM were really happy with our outcomes. 2013 was an exceptional year for the business, and we are effectively set to continue our steady and strong development. 2014 is currently on track to exceed exactly what we attained in 2014.”.
“From exactly what I have actually visited to date,” he concluded, “We securely think that 2014 will certainly be another terrific year for our group of business, with numerous brand-new interesting advancements on the near hori.

About Asia Plantation Capital.
Quick realities:.
US$ 600 million – incorporated value of possessions possessed and under management.
US$ 53.5 million – turnover in the last fiscal year.
US$ 100 million – turnover forecast for existing fiscal year.
2,000,000 – Aquilaria trees today, on Agarwood plantations.

Asia Plantation Capital (APC) is the owner and operator of a varied variety of office plantation and farming companies throughout the Asia-Pacific area and around the world, and is part of the Asia Plantation Capital Group of associated business. Developed formally in 2008 (although running independently because 2002) the group now has plantation and farming tasks on 4 continents, with functional jobs at different phases in Thailand, Malaysia, China, Laos, India, Cambodia, Sri Lanka, Myanmar, Vietnam, North America and Europe.
Promoting making use of qualified and sustainable wood is the very best method of avoiding logging, safeguarding biodiversity, and fighting poverty in the tropical jungle areas. For the yacht sector (a significant user of teak) which pursues quality and which is currently associated with ecological efforts, this is likewise a method of making sure that no wood from unlawful logging is utilized.

Our commitment: to deliver the realities, the truth, and the potentials of bamboo

Bamboo building has actually typically been rather uncomplicated: Whole stalks are made use of to develop latticed buildings, or woven in strips to form wall-sized screens. The result can be spectacular, as well as useful in parts of the world where bamboo grows.

Scientists in Gibson’s laboratory have actually gathered bamboo samples of different densities to examine bamboo’s microstructure. Credit: Jennifer Chu/MIT

However there are restrictions to constructing with bamboo. The sturdy yard is susceptible to bugs, and structure with stalks– basically hollow cylinders– restricts the shape of individual structure parts, along with the sturdiness of the structure itself.

MIT researchers, together with designers and wood processors from England and Canada, are trying to find methods to turn bamboo into a building product more comparable to wood composites, like plywood. The concept is that a stalk, or culm, can be sliced into smaller sized pieces, which can then be bonded together to form tough blocks– just like traditional wood composites. A structural item of this sort might be made use of to build more resistant structures– especially in locations like China, India, and Brazil, where bamboo is plentiful.

Such bamboo items are presently being established by a number of business. The MIT job plans to get a much better understanding of these products, so that bamboo can be better made use of structurally. To that end, MIT scientists have actually now examined the microstructure of bamboo and discovered that the plant is more powerful and denser than North American softwoods like pine, fir, and spruce, making the turf an appealing resource for composite products.

“Bamboo grows thoroughly in areas where there are quickly establishing economies, so it’s an alternative structure product to concrete and steel,” states Lorna Gibson, the Matoula S. Salapatas Professor of Materials Science and Engineering at MIT. “You most likely would not make a high-rise building from bamboo, however definitely smaller sized structures like homes and low-rise structures.”.

Gibson and her coworkers assessed areas of bamboo from the in out, determining the stiffness of each area at the microscale. As it ends up, bamboo is densest near its external walls. The scientists utilized their information to establish a design that forecasts the strength of an offered area of bamboo.

The design might assist wood processors figure out ways to put together a specific bamboo item. As Gibson discusses it, one area of bamboo might be preferable for a provided item than another: “If you desired a bamboo beam that flexes, possibly you ‘d wish to put the denser product at the bottom and leading and the less thick bits towards the middle, as the anxieties in the beam are bigger on top and bottom and smaller sized in the middle. We’re taking a look at how we may enhance the option of bamboo products in the structure that you make.”.

Gibson and her associates have actually released their lead to the Journal of the Royal Society: Interface.
For their experiments, the scientists assessed specimens of moso, the primary types of bamboo made use of in China. Like many types of bamboo, moso grows as hollow, cylindrical stalks, or culms, segmented by nodes along the length of a stalk.

“One of the outstanding things is how quick bamboo grows,” Gibson notes. “If you grew a pine forest versus a bamboo forest, you would discover you can grow much more bamboo, and much faster.”.

Scientists made use of electron microscopy to get photos of the bamboo microstructure and produce full, microscale cross-sections of the whole culm wall at various heights along the stalk. The resulting images revealed density slopes of vascular packages– hollow vessels– that bring fluid up and down the stalk, surrounded by strong fibrous cells. The density of these packages enhances radially outside– a slope that appears to grow more noticable at greater positions along a stalk.

The scientists cut areas of bamboo from the in out, keeping in mind each sample’s longitudinal and radial position along a culm, then assessed the stiffness and strength of the samples by carrying out flexing and compression tests. In specific, they carried out nanoindentation, which makes use of a small mechanical suggestion to lower on a sample, to acquire an understanding of bamboo’s product homes at a finer scale. From the outcomes of these mechanical tests, Gibson and her coworkers discovered that in basic, bamboo is stiffer and more powerful than the majority of North American softwoods frequently made use of in building, as well as denser.

This images reveals a vascular package. You can see it is comprised of the vessels (big dark holes, empty looking) and supporting fibers (rather dark extremely strong looking areas). The parenchyma (light round cells) surround the vascular package (vascular package describes the total clover shaped structure).
The scientists then made use of the stiffness and density information to develop a design that precisely anticipates the mechanical homes of bamboo as a function of position in the stalk. Gibson states wood processors that she deals with in Canada might utilize the design as an overview of put together long lasting bamboo blocks of numerous sizes and shapes.

Going ahead, the processors, in turn, will certainly send out the MIT group composite samples of bamboo to define. For instance, an item might be processed to consist of bamboo together with other products to decrease the density of the item and make it resistant to pests. Such composite products, Gibson states, will certainly need to be comprehended at the microscale.

“We wish to take a look at the initial mechanical buildings of the bamboo culm, along with how processing impacts the item,” Gibson states. “Maybe there’s a method to decrease any impacts, and make use of bamboo in a more flexible method.”.

Oliver Frith, acting director of program for the International Network for Bamboo and Rattan, locateded in Beijing, states that few types of bamboo have actually been categorized, and the absence of understanding of the product’s microstructure has damaged efforts to design reliable, optimum structural items.

“MIT’s work is extremely prompt and has excellent prospective to support advancement of the sector,” states Frith, who was not associated with the research study. “While bamboo has resemblances to wood, as this research reveals, the product likewise has really unique homes. Although present strategies to establishing structural crafted bamboo have actually had the tendency to concentrate on simulating crafted wood items, the future will most likely depend on innovating brand-new techniques that can much better improve the natural benefits of this special product.”.

Offered by Massachusetts Institute of Technology.

Bamboo Forestry : A Private Sector’s View to REDD+

The last One Decade of REDD and REDD+ advancement have actually revealed that the rate credited to and the desire to spend for forest based environment services, whether through compliance or a voluntary plans, is not likely to ever take on the marketplace rate for wood and fiber that originates from the logging and deterioration of the world’s staying natural forests.

Although task level advantages might be considerable, so long as need continues and a growing market supplies appealing returns on the harvesting of natural forests, leak is inescapable, and really measurable REDD+ in lots of countries will certainly be tough to attain. The mathematics is easy: plantation forests still provide just a portion of our fuel and fiber requirements, and without an option, at the international scale the deterioration will certainly continue, although the real place might move. For that reason attending to the motorists of logging, a property on which REDD was developed, through the arrangement of long and sustainable term options is vital.

United States based EcoPlanet Bamboo is industrializing bamboo, produced under rigid methods and treatments and established around a structure of favorable social and ecological effect as an economic sector system that has the prospective to contribute to resolving a significant motorist of logging, restore fragmented forest environments and bring back environment functions. Through such a system, and through the arrangement of licensed bamboo fiber to markets that presently drive logging, commercially produced bamboo can be one piece of the puzzle in moving the REDD+ program forward, all while sequestering and keeping substantial volumes of climatic CO2.

Our utmost objective is to resolve the easy supply and need for wood and fiber within a concrete timeframe and under a structure that this “alternative” fiber is produced just in such a way that satisfies market need, without an associated ecological expense, an economic sector and financially feasible option to the world’s requirement for fiber. Such fiber is utilized in everything, from every day customer products such as toilet kitchen area, paper and tissue paper, to clothes and fabrics, to crafted wood for building, real estate and furnishings, to charcoal and other fuel items.
Environmentally speaking, the 1,200 plus types of bamboo are part of the turf household however the biomass the plant produces is a wood like fiber, with homes that mirror image those of lots of conventional wood types, from woods to softwoods. Like any other crop being produced commercially, bamboo needs a rigid management routine, and lots of inputs.

In the context of REDD+, bamboo’s biggest benefit in addition to being an alternative fiber for lumber reliant markets, is its capability to be grown on marginal and abject land, hence not taking on food security, and produce a large volume of fiber on a yearly basis, without the requirement for replanting. For that reason not just does its production offer a fiber that lowers pressure on natural forests, whether that represents fiber to change kraft pulp presently made use of in toilet tissue and sourced from old development boreal forests in Canada and Russia, to fiber that can change liquefying pulp for fabrics and clothes which is presently sourced from the cleaning of main tropical forests in Indonesia and somewhere else, however it can be an important device for effective remediation, specifically if native types are grown.

Within a 6-8 year duration, depending upon the levels of destruction, and the capability to perform a set and comprehend of distinct methods, bamboo produces a long-term and constant canopy cover, its strong root system separates compressed soil and offers water purification advantages, recovering water tables and handling water cycles, boost natural soil carbon and nutrient levels, and as EcoPlanet Bamboo’s VCS confirmed and validated jobs in Nicaragua have actually revealed, can sequester and accumulate to 800 lots of CO2e per hectare.

Measurable carbon (whether as a REDD+ effort or as a simple Afforestation/Reforestation task), social and biodiversity effects are a requirements for the business’s jobs, as is Forest Stewardship Council (FSC) accreditation for the sustainable management of the bamboo resource itself. If done properly, and this structure adhered to as tasks enhance in scale and scope, bamboo might show to be a genuinely financially practical system to accomplished the core elements of REDD+.

Exploring Bamboo’s Potentials

Bamboo building has actually typically been rather uncomplicated: Whole stalks are made use of to develop latticed buildings, or woven in strips to form wall-sized screens. The result can be spectacular, as well as useful in parts of the world where bamboo grows.

Scientists in Gibson’s laboratory have actually gathered bamboo samples of different densities to examine bamboo’s microstructure. Credit: Jennifer Chu/MIT

However there are restrictions to constructing with bamboo. The sturdy yard is susceptible to bugs, and structure with stalks– basically hollow cylinders– restricts the shape of individual structure parts, along with the sturdiness of the structure itself.

MIT researchers, together with designers and wood processors from England and Canada, are trying to find methods to turn bamboo into a building product more comparable to wood composites, like plywood. The concept is that a stalk, or culm, can be sliced into smaller sized pieces, which can then be bonded together to form tough blocks– just like traditional wood composites. A structural item of this sort might be made use of to build more resistant structures– especially in locations like China, India, and Brazil, where bamboo is plentiful.

Such bamboo items are presently being established by a number of business. The MIT job plans to get a much better understanding of these products, so that bamboo can be better made use of structurally. To that end, MIT scientists have actually now examined the microstructure of bamboo and discovered that the plant is more powerful and denser than North American softwoods like pine, fir, and spruce, making the turf an appealing resource for composite products.

“Bamboo grows thoroughly in areas where there are quickly establishing economies, so it’s an alternative structure product to concrete and steel,” states Lorna Gibson, the Matoula S. Salapatas Professor of Materials Science and Engineering at MIT. “You most likely would not make a high-rise building from bamboo, however definitely smaller sized structures like homes and low-rise structures.”.

Gibson and her coworkers assessed areas of bamboo from the in out, determining the stiffness of each area at the microscale. As it ends up, bamboo is densest near its external walls. The scientists utilized their information to establish a design that forecasts the strength of an offered area of bamboo.

The design might assist wood processors figure out ways to put together a specific bamboo item. As Gibson discusses it, one area of bamboo might be preferable for a provided item than another: “If you desired a bamboo beam that flexes, possibly you ‘d wish to put the denser product at the bottom and leading and the less thick bits towards the middle, as the anxieties in the beam are bigger on top and bottom and smaller sized in the middle. We’re taking a look at how we may enhance the option of bamboo products in the structure that you make.”.

Gibson and her associates have actually released their lead to the Journal of the Royal Society: Interface.
For their experiments, the scientists assessed specimens of moso, the primary types of bamboo made use of in China. Like many types of bamboo, moso grows as hollow, cylindrical stalks, or culms, segmented by nodes along the length of a stalk.

“One of the outstanding things is how quick bamboo grows,” Gibson notes. “If you grew a pine forest versus a bamboo forest, you would discover you can grow much more bamboo, and much faster.”.

Scientists made use of electron microscopy to get photos of the bamboo microstructure and produce full, microscale cross-sections of the whole culm wall at various heights along the stalk. The resulting images revealed density slopes of vascular packages– hollow vessels– that bring fluid up and down the stalk, surrounded by strong fibrous cells. The density of these packages enhances radially outside– a slope that appears to grow more noticable at greater positions along a stalk.

The scientists cut areas of bamboo from the in out, keeping in mind each sample’s longitudinal and radial position along a culm, then assessed the stiffness and strength of the samples by carrying out flexing and compression tests. In specific, they carried out nanoindentation, which makes use of a small mechanical suggestion to lower on a sample, to acquire an understanding of bamboo’s product homes at a finer scale. From the outcomes of these mechanical tests, Gibson and her coworkers discovered that in basic, bamboo is stiffer and more powerful than the majority of North American softwoods frequently made use of in building, as well as denser.

This images reveals a vascular package. You can see it is comprised of the vessels (big dark holes, empty looking) and supporting fibers (rather dark extremely strong looking areas). The parenchyma (light round cells) surround the vascular package (vascular package describes the total clover shaped structure).

The scientists then made use of the stiffness and density information to develop a design that precisely anticipates the mechanical homes of bamboo as a function of position in the stalk. Gibson states wood processors that she deals with in Canada might utilize the design as an overview of put together long lasting bamboo blocks of numerous sizes and shapes.

Going ahead, the processors, in turn, will certainly send out the MIT group composite samples of bamboo to define. For instance, an item might be processed to consist of bamboo together with other products to decrease the density of the item and make it resistant to pests. Such composite products, Gibson states, will certainly need to be comprehended at the microscale.

“We wish to take a look at the initial mechanical buildings of the bamboo culm, along with how processing impacts the item,” Gibson states. “Maybe there’s a method to decrease any impacts, and make use of bamboo in a more flexible method.”.

Oliver Frith, acting director of program for the International Network for Bamboo and Rattan, locateded in Beijing, states that few types of bamboo have actually been categorized, and the absence of understanding of the product’s microstructure has damaged efforts to design reliable, optimum structural items.

“MIT’s work is extremely prompt and has excellent prospective to support advancement of the sector,” states Frith, who was not associated with the research study. “While bamboo has resemblances to wood, as this research reveals, the product likewise has really unique homes. Although present strategies to establishing structural crafted bamboo have actually had the tendency to concentrate on simulating crafted wood items, the future will most likely depend on innovating brand-new techniques that can much better improve the natural benefits of this special product.”.

Offered by Massachusetts Institute of Technology.

Von Asia Plantation Capital neu eingeführtes Überwachungssystem kann Bäume direkt in Augenschein nehmen

Singapur (ots/PRNewswire) – Die in Singapur ansässige Asia Plantation Capital hat nach mehrjähriger eingehender Erforschung der besten und effizientesten zur Verfügung stehenden Methoden zur Überwachung des Baumwachstums und Erhöhung der Sicherheit auf Plantagen mit hochwertigem Baumbestand ein neues System zum Patent angemeldet, das auf computerbasierten luftgestützten Drohnen beruht, die mit einem zentralen Kontrollsystem verbunden und für die Überwachung der Plantagen programmiert sind.
Das neue System wurde während der vergangenen neun Monate erfolgreich in thailändischen Plantagen getestet und steht ab jetzt für die Implementierung in sämtlichen hochwertigen Anpflanzungen und Anlagen des Unternehmens bereit.
“Während der letzten Jahre haben wir als Teil unserer kontinuierlichen Forschungs- und Entwicklungsstrategie verschiedene Systeme in unseren Plantagen getestet und installiert. Dazu gehören fernbediente Sensoren für Bodentemperatur, Niederschlag, Nährstoffe sowie Sensoren für Baumwachstum und Luftfeuchtigkeit, die vom in Singapur ansässigen Unternehmen BioMachines bereitgestellt werden,” erklärt CEO Barry Rawlinson. “Echtzeit-Überwachung mit Kameras hat sich auf ausgedehnten Plantagen, die sich über beachtlich große Gebiete erstrecken, immer als problematisch erwiesen.”
WERBUNG
Der Einsatz dieser neuesten, mit GPS-Tracking und Funktionalität für voreingestellte Flugbahnen ausgerüsteten Luftbildkamera-Drohnen macht die konsistente Abdeckung von Plantagen möglich und liefert wertvolle Daten zum Wachstum in Echtzeit sowie fotografische Daten an die Manager des Bodenteams.