Pinoy ecofloor tile inventor

Filipino in Taiwan turns paper cups into 'eco plastic tiles'

Plastic film on surface of paper cups can be put to good use

By Huang Tzu-ti, Staff writer

Taiwan News

10 August 2019

TAIPEI (Taiwan News) – A Chinese Filipino who lives in Taiwan has come up with a smart solution to the non-recyclable plastic layer in paper boxes and cups – turning it into eco floor tiles.

Eco-plastic tiles inventor Tsai Sheng-lun (蔡昇倫)(right)(CNA photo)

Formerly a successful architect, Tsai Sheng-lun (蔡昇倫) left his high-paying job 11 years ago to work for the NGO Tzu Chi Foundation in eastern Taiwan's Hualien. He has thus shifted his focus from space planning to the invention of eco-friendly products over the past few years, reported the Central News Agency (CNA).

Acknowledging that the outer material coating many disposable paper cups and boxes plastic and hence not recyclable, Tsai has invested effort into making the most use of the waste, which can easily reach 200 tons a day. It was a task commissioned to him by Master Cheng Yen (證嚴法師), a Buddhist leader and founder of the Foundation, Tsai said.

After two years of research and experiments, the effort paid off. Tsai managed to convert the plastic garbage into floor tiles, with each piece measuring 8 by 20 cm. The tiles can be joined together seamlessly, are surprisingly solid and resistant to impact, and can support up to 40 tons.

The eco tiles, which are made with 1.7 kg of plastic trash per piece, were patented on Thursday (Aug. 8). The innovative technology can also be applied to the disposal of candy wraps and other forms of plastic waste, providing an alternative to ceramic tiles while advancing the cause of environmental protection, reported CNA.

New Specie of shipworm in PH

Rock-Eating Shipworm Discovered in Philippines

Enrico de Lazaro 

Sci-news.com

Jun 20, 2019 

An international research team led by Northeastern University marine biologists has discovered a new genus and species of shipworm burrowing into the bedrock of the Abatan River on the Philippine Island of Bohol.

Shipworms (family Teredinidae) are a group of predominantly marine, wood-boring and wood-feeding bivalve mollusks.

Rock-boring and rock-ingesting Lithoredo abatanica shipworms live in carbonate limestone bedrock in the Abatan River on the Philippine Island of Bohol. Image credit: Dan Distel.

Known in the literature since the 4th century BCE, these creatures are the primary consumers of woody materials across the world’s oceans.

In contrast, the newly-discovered shipworm — named Lithoredo abatanica — lacks adaptations associated with wood-boring and wood digestion.

“Lithoredo abatanica is not a wood-borer and lacks the anatomical and morphological specializations typically associated with wood-boring and wood-digestion in other species,” said Dr. Reuben Shipway of Northeastern University and colleagues.

“It burrows into and ingests limestone, which accumulates in the guts of animals and is expelled from the siphons as fine-grained particles.”

“This strategy of burrowing into rock by ingestion is, to our knowledge, unique among the animal kingdom.”

The specimens of Lithoredo abatanica were collected from deposits of soft limestone in the Abatan River as part of a Philippine Mollusk Symbiont project expedition.

“The shipworms had entirely reshaped the riverbed ecosystem,” the scientists said.

“The rocks at the bottom of the river were covered in holes, many with tiny shipworm siphons protruding into the water.”

“Any burrows the shipworms had abandoned were now home to small fish and crustaceans.”

A paper reporting the discovery was published this week in the Proceedings of the Royal Society B.

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J. Reuben Shipway et al. 2019. A rock-boring and rock-ingesting freshwater bivalve (shipworm) from the Philippines. Proc. R. Soc. B 286 (1905); doi: 10.1098/rspb.2019.0434

PH biodiversity hotspot

Two new species of 'tweezer-beaked hopping rats' discovered in Philippines

Elusive rodents finally found when scientists switched out peanut butter bait for earthworms

Science Daily.com
06 June 2019

Just about everybody loves peanut butter. We put it on sandwiches and in candy, we use it to trick our dogs into taking their heartworm pills, and, when we have to, we bait mouse traps with it. But, as scientists learned when trapping rodents in the mountains of the Philippines, peanut butter isn't for everyone. A highly distinctive (weird-looking) group of rodents sometimes called "tweezer-beaked hopping rats" don't care for peanut butter, but love earthworms. Armed with this knowledge (and worms), the scientists discovered two new species of the tweezer-beaked hopping rats. The discovery was announced in the Journal of Mammalogy.

"In the late 1980s we were doing standard mammalogy surveys and using standard baits that most rodents really like: a combination of peanut butter and slices of fried coconut. It was really attractive bait, it makes your mouth water," says lead author Eric Rickart, a curator of the Natural History Museum of Utah at the University of Utah. The researchers knew that some of these critters had been found in the area before, but the rats weren't biting. One finally stumbled into a live trap, but it still didn't touch the peanut butter bait. The team tried to figure out what it did eat; when they offered it an earthworm, the rat, in Rickart's words, "slurped it up like a kid eating spaghetti."

"Once we began baiting the traps with live, wriggling earthworms, we discovered that these little animals are common and widespread," says Larry Heaney, a curator at the Field Museum and a co-author of the study. The field team, led by the late Danny Balete of the Field Museum, began finding more species that specialize in eating earthworms, including the two new species described in their recent paper.

The new species are named Rhynchomys labo and Rhynchomys mingan. The genus name, Rhynchomys, comes from the ancient Greek rhyncos for snout and mys for "mouse," a reference to the tweezer-beaked hopping rats' long pointed noses. The species names are for the mountains the rats are found on, Mount Labo and Mount Mingan.

"They're quite bizarre," says Rickart. "They hop around on their sturdy hind legs and large hind feet, almost like little kangaroos. They have long, delicate snouts, and almost no chewing teeth."

"They're very docile, very cute," adds Heaney. "Their fur is short and very, very dense, like a plush toy. They make little runways through the forest and patrol these little trails, day and night, looking for earthworms."

The two new rodents are examples of the generally poorly-known, incredible biodiversity of the Philippines, which boasts more unique species of mammals per square mile than anywhere else on Earth. "Up until the late '90s, we all thought maximum mammalian diversity was in the lowland tropical rainforest" explains Heaney. But Heaney, Rickart, and their colleagues found that mountains like those on the Philippines were the perfect breeding ground for new species of mammals. The different habitats at different elevations on a mountain can lead to different adaptations by its mammal residents, and their diversity actually increases as you go up higher into the mountains. Furthermore, the mammals on one mountain are isolated from their relatives on other mountains. Generations of isolation eventually lead to new species forming on different mountains, the same way that unique species emerge on islands. "Just about every time we've gone to a new area of Luzon with mountains, we've discovered that there are unique species," says Rickart.

But the Philippines' biodiversity is under threat. The islands are among the most extensively deforested places on Earth, with only about 6% of the original old growth tropical forest remaining. That's a big problem for the watershed. High mountains in the Philippines receive between 10 and 20 feet of rain every year, leaving steep slopes vulnerable to typhoons. The mulch-carpeted mossy forests in the mountains help to soak up that rain "like a giant sponge," says Heaney. "If you don't have an intact watershed and forest up in the mountains, you're going to have massive floods and landslides, because the water floods off instead of getting absorbed into mossy ground cover."

The researchers hope that the discovery of the two new species of tweezer-beaked hopping rats will serve as an argument for protecting the mountainous forests where they're found. "Every time we find a reason to say, 'This place is unique,' that tells people that it's worthy of protection," says co-author Phillip Alviola of the University of the Philippines.

All of the work on this project was conducted with permits and strong support of the Philippine Department of Natural Resources. The study was contributed to by authors from the University of Utah/Utah Natural History Museum, the Field Museum, the University of Kansas, the University of the Philippines, and Louisiana State University.

New Human specie found in Philippines

Previously Unknown Human Species Discovered in the Philippines

The discovery of Homo luzonensis suggests the history of human evolution is more complicated than we thought.

Sarah Pruitt| april 20, 2019

History

Beneath the rocky floor of Callao Cave on Luzon island in the Philippines, researchers have uncovered a number of fossils from what they believe is a previously unknown ancient human species.

Dubbed Homo luzonensis, the newly identified species inhabited Luzon more than 50,000 years ago, during the Late Pleistocene epoch. This means they shared the Earth with other relatively advanced hominins, including Homo neanderthalensis (a.k.a. Neanderthals) and Homo sapiens, or modern humans. These early humans lived in the same region and at the same time as the previously known “Hobbit” species, Homo floresiensis, and their tiny teeth suggest they may have been even shorter—possibly under three feet tall. But their tooth and foot shape, along with other traits, mark them as a distinct species all their own. 

Scientists have known for a while that generations of ancient hominins called this island in Southeast Asia home. Back in 2007, archaeologists in Luzon discovered a single foot bone (or metatarsal) in Callao Cave, which they dated to 67,000 years ago. Analysis of that fossil suggested it belonged to a member of the genus Homo, but they didn’t know which species. 

Excavation work inside the Callao Cave in Luzon.

Callao Cave Archaeology Project

In later excavations, conducted in 2011 and 2015, an international team of researchers led by Florent Détroit, of the Musée de l'Homme at the Natural History Museum in Paris, and Armand Mijares, of the University of the Philippines in Quezon City, found 12 more hominin bones and teeth in the same rock layer where the foot bone had been found. In their analysis of the fossils, published in Nature, they trace the remains to three different individuals, including at least one juvenile. 

The fossils found in the cave—including several foot and hand bones, a partial femur and teeth—shared some morphological features with more primitive hominin species such as Australopithecus and Homo erectus, as well as more advanced ones, including Homo sapiens and Homo floresiensis.

“What makes them a new species is actually the combination of all features taken together,” Détroit said in an email interview. “If you take each feature one by one, you will of course find it in one or several hominin species. But if you take the whole package, no other species of the genus Homo is similar, thus indicating that they belong to a new species.” 

Molars and premlars found of the Homo luzonensis.

Callao Cave Archaeology Project

In particular, the teeth found in Callao Cave differ from those of other known hominin species. The premolars have two to three roots, while in Homo sapiens, premolars usually have only one root, or two at the most. These distinct premolars, as well as the tooth enamel and dentin (the hard bony tissue that makes up the body of the tooth) are similar to Australopithecus and more ancient species of the genus Homo, such as Homo habilis and Homo erectus.

On the other hand, the molars are very small and simply formed, like those of modern humans. “An individual with these characteristics combined cannot be classified in any of the species known today,” said Détroit.

The foot bones identified as Homo luzonensis also stand out for their combination of primitive and developed features, which indicates members of the species might have had a distinctive way of walking. The proximal phalanx (which forms the base of the toe) is curved, with highly developed insertions for the muscles involved in the flexion of the foot.

“These characteristics do not exist in Homo sapiens,” Détroit pointed out. In fact, the foot bones found in Callao Cave are more similar to Australopithecus, which was known to live only in Africa some 2-3 million years ago. This suggests Homo luzonensis might (like Australopithecus) have had the ability to easily climb trees as well as walk upright on two legs, though it’s not clear whether they did so.

Though other Homo species are known to have inhabited the Southeast Asian islands, the researchers think Homo luzonensis were the only hominins present on Luzon at the time. The earliest Homo sapiens known in the Philippines are fossils discovered in Tabon Cave on Palawan Island, dated to 30,000 to 40,000 years ago at the oldest. By contrast, archaeologists recently unearthed stone tools and bones from a butchered rhinoceros in a valley near Callao Cave, suggesting that Homo luzonensis or its ancestors were on Luzon as many as 700,000 years ago.

Luzon is a large island and has never been accessible to the rest of the continent via land bridge. As a result, much of its flora and fauna are endemic (or restricted) to the island, with a relatively low genetic diversity. This phenomenon can rise to species that differ significantly from related species on the continent, the researchers argue—which explains why Homo luzonensis might look very different from its mainland hominin relatives.

At least a dozen species in the genus Homo have been identified so far, of which Homo sapiens is the only survivor. The exact number of early human species is a matter of debate, and has continued to expand over the years. Most recently, in 2012, scientists announced that fossils found in China belonged to a previously unknown early human species, which they called the Red Deer Cave people.

Like other recent discoveries that have expanded scientists’ understanding of human evolution (including the revelation that modern humans interbred not only with Neanderthals but with the mysterious ancient hominins known as Denisovans), Homo luzonensis and its distinct blend of features suggests the evolution of the Homo genus took many more twists and turns than previously believed.

“Fifteen years ago, human evolution in Asia was very simple, with Homo erectus going out of Africa, settling in East and Southeast Asia and nothing happening until the arrival of Homo sapiens at around 40-50,000 years ago,” Détroit said. “This finding is a significant new piece of evidence to improve our knowledge of human evolution, especially in Asia, where human evolution was clearly much more complex (and much more interesting) than what we thought before.” 

Pinoy Planets

3 minor planets named after Pinoy students — DepEd 


Donna Magsino
GMA News
09 April 2019

An out of this world recognition was literally given to three outstanding Filipino students, as three minor planets in the universe were named after them after bagging an award from an international science fair, held in the United States.

According to a Facebook post of the Department of Education (DepEd) on Tuesday, the young scientists — Eugene Rivera, Joscel Kent Manzanero, and Keith Russel Cadores —from Camarines Sur National High School will forever have their names up in the sky, after their work in the design and development of Solar-Tracking Arduino-Rooted PV Panels won the second place award in the "Energy: Physical" category of the 2018 Intel International Science and Engineering Fair.

"Each received a certificate identifying their very own minor planet and an orbital plot showing its current location," DepEd said in a statement.

Since 2001, the Massachusetts Institute of Technology (MIT) Lincoln Laboratory has recognized high school students with exceptional knowledge in science by using their names as identifiers of the asteroids discovered by the laboratory.

Congrats, Eugene, Joscel, and Keith! Continue to reach for the sky!