Friday, January 15, 2021

Scientists discover electric eels hunting in a group

Never-before-seen behavior culminates in a synchronized zap of eels' prey, raising new questions about how they communicate

SMITHSONIAN

Research News




Deep in the Brazilian Amazon River basin, scientists led by the Smithsonian's National Museum of Natural History fish research associate C. David de Santana discovered a small, river-fed lake filled with more than 100 adult electric eels, many of which were upwards of 4 feet long. On its own, this was an intriguing discovery, electric eels--a type of knifefish rather than true eels--were thought to be solitary creatures.

But in this lake along the banks of the Iriri River in Brazil's state of Pará, the researchers witnessed the eels working together to herd small fish called tetras into tightly packed balls. Then groups of up to 10 eels periodically split off to form cooperative hunting parties, not unlike packs of wolves or pods of killer whales. Those smaller groups then surrounded the prey ball and launched simultaneous electric attacks, stunning the tetras into submission.

"This is an extraordinary discovery," de Santana said. "Nothing like this has ever been documented in electric eels."

De Santana is the senior author of a new paper describing this novel behavior in the Jan. 14 issue of the journal Ecology and Evolution. The findings overturn the idea that these serpentine fish are exclusively solitary predators and open the door to new questions about how these little-understood fish live.

"Hunting in groups is pretty common among mammals, but it's actually quite rare in fishes," de Santana said. "There are only nine other species of fishes known to do this, which makes this finding really special."

This new paper is the latest in a string of revelations driven by de Santana's investigations of the mysterious lives of South America's electric fishes. His pioneering expeditions into the murky, remote waters of the Amazon and its many tributaries have brought to light 85 new species of electric fishes. Just last year, he tripled the number of known species of electric eels, which had stood at one for roughly 250 years.

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Underwater photos of Volta's electric eel (Electrophorus voltai), the species of electric eel recently discovered by researchers to hunt in groups. A team of scientists describe this novel behavior in the Jan. 14 issue of the journal Ecology and Evolution. The findings overturn the idea that these serpentine fish are exclusively solitary predators and open the door to new questions about how these little-understood fish live. This new paper is the latest in a string of revelations about the mysterious lives of South America's electric fishes. Just last year, scientists tripled the number of known species of electric eels, which had stood at one for roughly 250 years. One of the new species of electric eel presented in the 2019 paper, Volta's electric eel, can reach lengths of up to 8 feet and is capable of producing 860-volt electric shocks--the strongest electric discharge of any animal on Earth and 210 volts higher than the previous record.

One of the new species of electric eel presented in his 2019 paper, Volta's electric eel (Electrophorus voltai), is capable of producing 860-volt electric shocks--the strongest electric discharge of any animal on Earth and 210 volts higher than the previous record. The freshly described Volta's electric eel, which can reach lengths of 8 feet, is also the species behind the social hunting strategy at the center of de Santana's new research.

"If you think about it, an individual of this species can produce a discharge of up to 860 volts--so in theory if 10 of them discharged at the same time, they could be producing up to 8,600 volts of electricity," de Santana said. "That's around the same voltage needed to power 100 light bulbs."

Direct measurements of these simultaneous shocks are one of the things de Santana and his colleagues hope to collect on their next expedition to the remote waterways of the Amazon basin. Fortunately for de Santana, who has been shocked more than once by individual eels in the field, the shock only lasts about two-thousandths of a second, but it is enough to cause a painful muscle spasm that might knock a person off their feet.

De Santana's team first witnessed Volta's electric eel hunting in groups during a field expedition in August of 2012. Douglas Bastos, a then Master of Science candidate at Brazil's Instituto Nacional de Pesquisas da Amazônia (INPA) and the paper's first author, travelled five days by boat to explore the fish diversity of the Iriri River. Bastos, now a scientist at INPA, discovered a small lake directly connected with the Iriri River, and to his amazement, the lake held more than 100 adult electric eels.

A subsequent expedition in October 2014 found a similarly prodigious collection of Volta's electric eels in the same locality, which allowed Bastos to document the behavior in greater detail and confirm that it was not just a one-time event. In all, the team logged 72 hours of continuous observation of the eels congregating in this location along the Iriri River.

For the majority of the day and the night, the eels lay almost motionless in the deeper end of the lake, only occasionally coming to the surface to breathe--electric eels get the vast majority of their oxygen from air, an adaptation in response to the low-oxygen waters they sometimes inhabit. But at dusk and dawn the congregation began to stir.



In these twilight hours, the eels started interacting with each other and then began swimming in a large circle. This churning circle of electric eels corralled thousands of the 1-to-2-inch tetras into tighter and tighter shoals. The researchers watched the group herding the concentrated tetras from the deeper end of the lake--around 12 feet deep--to shallow, 3-foot deep waters.

With the tetras trapped by the main group, de Santana says bands of two to 10 eels would separate, move in closer and then launch joint electric attacks on the prey ball. The electric shocks sent the tetras flying out of the water, but when they splashed down the small fish were stunned and motionless. Finally, the attacking eels and their compatriots easily picked off their defenseless prey. According to de Santana, each dawn or dusk hunting ritual took around one hour and contained between five to seven high-voltage attacks.

"This is the only location where this behavior has been observed, but right now we think the eels probably show up every year," de Santana said. "Our initial hypothesis is that this is a relatively rare event that occurs only in places with lots of prey and enough shelter for large numbers of adult eels."

In de Santana's estimation, the team's interviews with locals would have turned up tales of writhing pools filled with electric eels if these gatherings were common. "These animals can be 8 feet long and produce 860-volt electric shocks; if 100 of them being in one place was a common occurrence, I think we would have heard about it before now."

But when the conditions are right, this hunting technique allows the eels to subdue huge quantities of prey that are normally too evasive to capture. Electric eels customarily feed alone at night by sneaking up on sleeping fish and jolting them into an easy-to-eat torpor.

De Santana and his team hope that their newly launched citizen scientist program called Projeto Poraquê may help locate more of these special aggregations of eels. The project, named for an Indigenous Brazilian word for electric eel, will allow users to report sightings and log observations.

Now, de Santana and his colleagues are in the early stages of organizing the next expedition to this unique location along the Iriri. They hope to collect additional tissue samples and mark individual eels with radio tags to understand possible kin relations and hierarchy within the group. De Santana will also aim to take direct measurements of the electrical discharges produced during group hunting to assess their maximum voltage and to determine whether the eels might also be using low-voltage shocks to communicate and orchestrate their efforts, similar to how some marine mammals such as whales and dolphins use sound to coordinate when hunting their prey.

Many of these measurements will be challenging to collect in the field, so de Santana has secured permits to collect eight to 10 adult eels and bring them to a special facility in Germany where he and his collaborators can conduct more controlled tests, which could later be replicated in the field. This would be the first time a group of adult Volta's electric eels has been held in captivity together.

With the Amazon under threat from deforestation, fire and climate change, de Santana said there is a profound sense of urgency to accelerate biodiversity assessment in the region. "Electric eels aren't in immediate danger, but their habitats and ecosystems are under immense pressure. This paper is an example of how much we still don't know, how many organisms whose life histories we don't yet understand."

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Funding and support for this research were provided by the Smithsonian, the Global Genome Initiative, the Brazilian National Council for Scientific and Technological Development, the São Paulo Research Foundation and National Geographic.

Climate change is hurting children's diets, global study finds

Rising temperatures contribute to child malnutrition and reduced diet quality

UNIVERSITY OF VERMONT

Research News

IMAGE

IMAGE: A FIRST-OF-ITS-KIND GLOBAL STUDY FINDS THAT HIGHER TEMPERATURES ARE AN EQUAL OR EVEN GREATER CONTRIBUTOR TO CHILD MALNUTRITION AND LOW QUALITY DIETS THAN THE TRADITIONAL CULPRITS OF POVERTY, INADEQUATE SANITATION,... view more 

CREDIT: C. SHUBERT (CCAFS)

A first-of-its-kind, international study of 107,000 children finds that higher temperatures are an equal or even greater contributor to child malnutrition and low quality diets than the traditional culprits of poverty, inadequate sanitation, and poor education.

The 19-nation study is the largest investigation of the relationship between our changing climate and children's diet diversity to date. It is believed to be the first study across multiple nations and continents of how both higher temperatures and rainfall--two key results of climate change--have impacted children's diet diversity.

"Certainly, future climate changes have been predicted to affect malnutrition, but it surprised us that higher temperatures are already showing an impact," said lead author Meredith Niles, an assistant professor of Nutrition and Food Sciences at the University of Vermont and a fellow at the university's Gund Institute for Environment.

Led by University of Vermont researchers, the study examines diet diversity among 107,000 children 5 and under in 19 countries in Asia, Africa, and South America, using 30 years of geo-coded temperature and precipitation data, and socioeconomic, ecological, and geographic data.

The study finds that the negative effects of climate--especially higher temperature--on diet diversity are greater in some regions than the positive effects of education, water and sanitation and poverty alleviation--all common global development tactics. The findings were published today in Environmental Research Letters.

Of the six regions examined--Asia; Central and South America; North, West, and Southeast Africa, five had significant reductions in diet diversity associated with higher temperatures.

Researchers focused on diet diversity, a metric developed by the United Nations to measure diet quality and micronutrient intake. Micronutrients, such as iron, folic acid, zinc, and vitamins A and D, are critical for child development. A lack of micronutrients is a cause of malnutrition, which affects one out of every three children under the age of five. Diet diversity is measured by counting the number of food groups eaten over a given time period.

On average, children in the study had eaten food from 3.2 food groups (out of 10)-- including meat and fish, legumes, dark leafy greens and cereal greens--in the previous 24 hours. By contrast, diet diversity in emerging economies or more affluent countries such as China have been more than double this average (6.8 for children 6 and under).

"Diet diversity was already low for this group," said UVM co-author Brendan Fisher. "These results suggest that, if we don't adapt, climate change could further erode a diet that already isn't meeting adequate child micronutrient levels."

Severe childhood malnutrition is a significant global challenge. According to the United Nations, 144 million children under age 5 were affected by stunting in 2019, an effect of chronic malnutrition. In 2019, 47 million children under 5 suffered from wasting, or acute undernutrition the UN says, a condition caused by limited nutrient intake and infection.

The study also found that higher precipitation, another potential effect of climate change in some regions, was associated with higher child diet diversity. In some cases, the effect of higher precipitation had a greater impact on child diet diversity than education, improved sanitation or greater forest cover.

"Higher rainfall in the future may provide important diet quality benefits in multiple ways, but it also depends on how that rain comes," said co-author Molly Brown of the University of Maryland. "If it's more erratic and intense, as is predicted with climate change, this may not hold true."

The study builds on UVM global research into how nature improves both children's health, their diets, and human well-being. The findings suggest that, in addition to addressing current needs, policy makers need to plan for improving diets across the most vulnerable in the future with a warming climate in mind.

"A warming climate has the potential undermine all the good that international development programs provide," said co-author Taylor Ricketts, Director of UVM's Gund Institute for Environment. "In fact, that is something we find again and again in this global research: continued environmental degradation has the potential to undermine the impressive global health gains of the last 50 years."

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The research team included Meredith Niles, Taylor Ricketts, Brendan Fisher and Serge Wiltshire (University of Vermont), Molly Brown (University of Maryland), and Benjamin Emery (Sandia National Laboratories).

A climate in crisis calls for investment in direct air capture, new research finds

Wartime-level funding for a fleet of CO2 scrubbers could slow warming, but stopping climate change still requires deep cuts in emissions

UNIVERSITY OF CALIFORNIA - SAN DIEGO

Research News

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IMAGE: MASSIVE DEPLOYMENT OF DIRECT AIR CAPTURE COULD REVERSE THE RISE IN GLOBAL TEMPERATURE WELL BEFORE 2100, BUT ONLY WITH IMMEDIATE AND SUSTAINED INVESTMENTS FROM GOVERNMENTS AND FIRMS TO SCALE UP... view more 

CREDIT: CREDIT: ACILO/ISTOCK

There is a growing consensus among scientists as well as national and local governments representing hundreds of millions of people, that humanity faces a climate crisis that demands a crisis response. New research from the University of California San Diego explores one possible mode of response: a massively funded program to deploy direct air capture (DAC) systems that remove CO2 directly from the ambient air and sequester it safely underground.

The findings reveal such a program could reverse the rise in global temperature well before 2100, but only with immediate and sustained investments from governments and firms to scale up the new technology.

Despite the enormous undertaking explored in the study, the research also reveals the need for governments, at the same time, to adopt policies that would achieve deep cuts in CO2 emissions. The scale of the effort needed just to achieve the Paris Agreement goals of holding average global temperature rise below 2 degrees Celsius is massive.

The study, published in Nature Communications, assesses how crisis-level government funding on direct air capture--on par with government spending on wars or pandemics--would lead to deployment of a fleet of DAC plants that would collectively remove CO2 from the atmosphere.

"DAC is substantially more expensive than many conventional mitigation measures, but costs could fall as firms gain experience with the technology," said first-author Ryan Hanna, assistant research scientist at UC San Diego. "If that happens, politicians could turn to the technology in response to public pressure if conventional mitigation proves politically or economically difficult."

Co-author David G. Victor, professor of industrial innovation at UC San Diego's School of Global Policy and Strategy, added that atmospheric CO2 concentrations are such that meeting climate goals requires not just preventing new emissions through extensive decarbonization of the energy system, but also finding ways to remove historical emissions already in the atmosphere.

"Current pledges to cut global emissions put us on track for about 3 degrees C of warming," Victor said. "This reality calls for research and action around the politics of emergency response. In times of crisis, such as war or pandemics, many barriers to policy expenditure and implementation are eclipsed by the need to mobilize aggressively."

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Rendering showing 'first look' of what will be the world's largest DAC plant.

CREDIT

Courtesy of Carbon Engineering

Emergency deployment of direct air capture

The study calculates the funding, net CO2 removal, and climate impacts of a large and sustained program to deploy direct air capture technology.

The authors find that if an emergency direct air capture program were to commence in 2025 and receive investment of 1.2-1.9% of global GDP annually it would remove 2.2-2.3 gigatons of CO2 by the year 2050 and 13-20 gigatons of CO2 by 2075. Cumulatively, the program would remove 570-840 gigatons of CO2 from 2025-2100, which falls within the range of CO2 removals that IPCC scenarios suggest will be needed to meet Paris targets.

Even with such a massive program, the globe would see temperature rise of 2.4-2.5ºC in the year 2100 without further cuts in global emissions below current trajectories.

Exploring the reality of a fleet of CO2 scrubbers in the sky

According to the authors, DAC has attributes that could prove attractive to policymakers if political pressures continue to mount to act on climate change, yet cutting emissions remains insurmountable.

"Policymakers might see value in the installation of a fleet of CO2 scrubbers: deployments would be highly controllable by the governments and firms that invest in them, their carbon removals are verifiable, and they do not threaten the economic competitiveness of existing industries," said Hanna.

From the Civil War to Operation Warp Speed, the authors estimate the financial resources that might be available for emergency deployment of direct air capture--in excess of one trillion dollars per year--based on previous spending the U.S. has made in times of crisis.

The authors then built a bottom-up deployment model that constructs, operates and retires successive vintages of DAC scrubbers, given available funds and the rates at which direct air capture technologies might improve with time. They link the technological and economic modeling to climate models that calculate the effects of these deployments on atmospheric CO2 concentration level and global mean surface temperature.

With massive financial resources committed to DAC, the study finds that the ability of the DAC industry to scale up is the main factor limiting CO2 removal from the atmosphere. The authors point to the ongoing pandemic as an analog: even though the FDA has authorized use of coronavirus vaccines, there is still a huge logistical challenge to scaling up production, transporting, and distributing the new therapies quickly and efficiently to vast segments of the public.

Conventional mitigation is still needed, even with wartime spending combating climate change

"Crisis deployment of direct air capture, even at the extreme of what is technically feasible, is not a substitute for conventional mitigation," the authors write.

Nevertheless, they note that the long-term vision for combating climate requires taking negative emissions seriously.

"For policymakers, one implication of this finding is the high value of near-term direct air capture deployments--even if societies today are not yet treating climate change as a crisis--because near term deployments enhance future scalability," they write. "Rather than avoiding direct air capture deployments because of high near-term costs, the right policy approach is the opposite."

Additionally, they note that such a large program would grow a new economic sector, producing a substantial number of new jobs.

The authors conclude it is time to extend research on direct air capture systems to real-world conditions and constraints that accompany deployment--especially in the context of acute political pressures that will arise as climate change becomes viewed as a crisis.

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Human-induced climate change caused the northwestern Pacific warming record in August 2020

A once-in-1000-year warming event has been already altered to occur once per 15 years because of past human activities

NATIONAL INSTITUTE FOR ENVIRONMENTAL STUDIES

Research News

August 2020 set new record high sea surface temperatures (SSTs) in the northwestern Pacific Ocean and around the Japan coasts. A new study led by National Institute for Environmental Studies (NIES) researchers revealed that this warming record could not happen without human-induced climate changes.

The northwestern Pacific sea surface becomes warm seasonally around August every year. However, it was unprecedentedly high in August 2020, according to the Japan Meteorological Agency and the National Oceanic and Atmospheric Administration. The extremely high SSTs exceeding 30°C, which lasted until mid-September, may have intensified tropical cyclones such as Typhoon Haisheng, causing severe damages to the East Asian countries. Although human-induced greenhouse gas emissions such as carbon dioxide have gradually warmed the northwestern Pacific Ocean since the mid-20th century, it remains unclear yet how much past human activities may increase the occurrence likelihood of such regional record-warm SSTs.

"Understanding the tropical warm water expansion in the Indo-Pacific and Atlantic Oceans is essential for projecting changes in the characteristics of tropical cyclones and other weather events in the future," said Hideo Shiogama, a co-author and the head of Climate Risk Assessment Section at the Center for Global Environmental Research, NIES. "A quantitative evaluation of what drives regional extreme temperatures happening recently is necessary to take appropriate measures to reduce greenhouse gas emissions and the impacts of global warming."

The paper published in Geophysical Research Letters illustrates the quantitative impact of greenhouse gases emitted by human activities on the unprecedentedly high SSTs in the northwestern Pacific Ocean in August 2020. By analyzing multiple observational datasets from 1901 to 2020 and a large number of experimental outputs from the state-of-the-art numerical climate models, a climate research group at NIES statistically estimated changes in the occurrence probability of the northwestern Pacific Ocean (120°E-180° and 20°N-35°N) condition exceeding the record-warm SST in August 2020 from the past to future. The scientists revealed that its probability in the present climate was increased from once-in-1000 years to once-in-15 years because of human-induced climate changes.


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Time series of the northwestern Pacific sea surface temperature in August. Showings are the observational datasets and the simulation results from the climate model (CMIP6) ensemble: the global warming signal (solid black line) and the ranges of 'once-in-20-year' events (95% probability range) in the historical and future experiments (gray shading) and pre-industrial experiments (dashed lines).

Time series of the northwestern Pacific sea surface temperature in August. Showings are the observational datasets and the simulation results from the climate model (CMIP6) ensemble: the global warming signal (solid black line) and the ranges of 'once-in-20-year' events (95% probability range) in the historical and future experiments (gray shading) and pre-industrial experiments (dashed lines).

Detecting human-induced climate changes

"The numerical climate model ensembles are powerful tools to quantitatively distinguish between natural variability of the Earth system and climate changes caused by human activities," said corresponding lead author Michiya Hayashi, a research associate at NIES. The ensemble of 31 climate models participating in the sixth phase of the Coupled Model Intercomparison Project (CMIP6) consists of a series of historical experiments and future scenario experiments forced by greenhouse gas- and aerosol emissions from human activities and natural volcanic and solar variations from 1850 to 2100. "We can compare the historical and future experiments with a sub-ensemble of the CMIP6 climate models forced only by the natural volcanic and solar activities to estimate to what extent human-caused climate changes have altered the northwestern Pacific Ocean condition until today."

"The northwestern Pacific warming has proceeded clearly since the 1980s," stated Shiogama. "The warming speed has been accelerated in the last four decades as the reduced aerosol emissions do not cancel the warming signal forced by increasing greenhouse gas concentration anymore." The results show that the CMIP6 ensemble well reproduces the observed long-term change in the northwestern Pacific August SST within the range of 'once-in-20-year' events in the historical simulations. "The SSTs that exceed the pre-industrial range are rarely observed during the 20th century but have occurred frequently since 2010, indicating that human influences on the northwestern Pacific Ocean are already detectable in observations," noted a co-author Seita Emori, deputy director of the Center for Global Environmental Research at NIES.

This new study estimates that the occurrence frequency of high northwestern Pacific SSTs exceeding the August 2020 level has been increased from once-in-600 years in the 20th century (1901-2000) to once-in-15 years in the present climate (2001-2020) using the CMIP6 ensemble. On the other hand, in the sub-ensemble forced only by natural volcanic and solar activities, the frequency for 2001-2020 is estimated to be once-in-1000 years or less. "The record high level of the northwestern Pacific SST in August could have occurred approximately once per 15 years in 2001-2020, as observed, but it never likely occurred without human-induced greenhouse gases or in the 20th century," said Hayashi.

Importantly, the scientists also imply from the future scenario experiments that the 2020 record high SST is becoming a new normal climate condition in August at the northwestern Pacific region by 2031-2050 when the globally averaged air temperature relative to pre-industrial levels would exceed 1.5°C. In this case, the tropical warm sea surface water, exceeding 28°C, may reach Japan, the Korean Peninsula, the west coast of India, the east coast of the U.S. mainland, and the west of the Hawaiian Islands. "We might need to prepare for living with such warm ocean conditions even if we humans could achieve the 1.5°C goal of the Paris Agreement," said Hayashi.

"The human-induced ocean warming may have impacted tropical cyclones, heavy rainfall, and marine life from the past to present and will continue in the future unless tremendous mitigation measures would be implemented," added Emori. "It is time to take prompt actions to transform our society for reducing the greenhouse gas emissions and for adapting to a changing climate."

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Probability distributions for the northwestern Pacific sea surface temperature in August. For 1901-2000, the climate model (CMIP6) ensemble (solid black line) reproduces the observational values (gray shading). For 2001-2020, the observed values (red triangles) are well covered by the CMIP6 ensemble (solid red line) but not by the sub-ensemble forced by natural variations only (thin blue line). For 2031-2050, the most likely level of the projected probability (solid yellow line) exceeds the 2020 level (dashed red line

Indonesia death toll climbs after Sulawesi hit by earthquake, landslides

17 MINUTES AGO

A strong earthquake shook Indonesia's Sulawesi island just after midnight, causing landslides and sending people fleeing from their homes in the nighttime darkness.
Rescuers search for survivors at the Mitra Manakarra hospital in Mamuju city on January 15, 2021. (AFP)

A strong, shallow earthquake shook Indonesia's Sulawesi island, causing landslides, levelling a hospital, severely damaging other buildings and sending people fleeing from their homes in the nighttime darkness.

At least 34 people were confirmed dead and more than 200 injured but authorities were still collecting information from devastated areas.

"The latest information we have is that 26 people are dead... in Mamuju city," said Ali Rahman, head of the local disaster mitigation agency, adding "that number could grow".

"Many of the dead are buried under rubble," he said.

Separately, the national disaster agency said at least eight people had died in an area south of Mamuju, a city of some 110,000 in West Sulawesi province, bringing the total death toll to 34.

The magnitude 6.2 quake early Friday was centered 36 kilometres (22 miles) south of West Sulawesi province’s Mamuju district, at a depth of 18 kilometres (11 miles), the US Geological Survey said.

Strong aftershocks could follow a 6.2 magnitude earthquake that struck Indonesia's Sulawesi island early on Friday, the chief of Indonesia's Meteorology and Geophysics agency (BMKG) said.

Dwikorita Karnawati told a news conference there had been at least 26 aftershocks after two strong quakes had rocked the area since Thursday afternoon.

Several buildings in Majene were severely damaged, including 62 homes, a health unit centre and a military office.

The strong quake also caused power and phone service outages and landslides along roads.
Rescuers search for survivors at a collapsed building in Mamuju city on January 15, 2021, after a 6.2-magnitude earthquake rocked Indonesia's Sulawesi island. (AFP)

A hospital in Mamuju, a city of some 110,000 in West Sulawesi province, was levelled.

"The hospital is flat tened, it collapsed," said Arianto from the rescue agency in Mamuju city, who goes by one name.

"There are patients and hospital employees trapped under the rubble and we're now trying to reach them," he added, without giving a specific figure.




Death toll could rise

Rescuers were also trying to reach a family of eight trapped under the rubble of their destroyed home, he added.

The country's search-and-rescue agency earlier said at least one hotel had collapsed after the quake struck at 2:18 am local time Friday (1818 GMT Thursday).

It later clarified that the hotel had partially caved in, while the regional governor's office also suffered extensive damage.

A Mamuju resident said damage across the city was severe, but the full extent of the disaster and casualties was not immediately clear.

"Roads are cracked and many buildings collapsed," said 28-year-old Hendra, who also goes by one name.

"The quake was very strong... I woke up and ran away with my wife."

National Disaster Mitigation Agency spokesman Raditya Jati said three people had been killed and 24 injured.

The death toll could rise.

In a video released by the National Disaster Mitigation Agency, a girl trapped in the wreckage of a house cried out for help and said her mother was alive but unable to move out. "Please help me, it's hurt," the girl told rescuers, who replied that they desperately wanted to help her.

In the video, the rescuers said an excavator was needed to save them. Other images in the video showed a severed bridge and damaged and even flattened houses. TV stations reported the earthquake damaged part of a hospital and patients were moved to an emergency tent outside
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A damaged car and buildings are seen following an earthquake in Mamuju, West Sulawesi province, Indonesia, January 15, 2021. (Reuters)

Another video showed a father cried hopeless, asking help from people to save his children buried under tons of his house rubble. "My children there... they are trapped inside, please help," he cried in panic.

At least 62 houses, a public health centre and a military office were damaged in Mamuju and landslides were set off in three locations and blocked a main road connecting Mamuju to the Majene district, said Raditya Jati, the disaster agency's spokesperson.

Hours earlier, a 5.9 magnitude earthquake struck in the same district on Thursday damaging several houses

Straddling the so-called Pacific 'ring of fire', Indonesia, a nation of high tectonic activity, is regularly hit by earthquakes.

In 2018, a devastating 6.2 magnitude quake and subsequent tsunami struck the city of Palu, in Sulawesi, killing thousands of people.

Hard to crack research reveals how crop roots penetrate hard soils

UNIVERSITY OF NOTTINGHAM

Research News




Scientists have discovered a signal that causes roots to stop growing in hard soils which can be 'switched off' to allow them to punch through compacted soil - a discovery that could help plants to grow in even the most damaged soils.

An international research team, led by scientists from the University of Nottingham's Future Food Beacon and Shanghai Jiao Tong University has discovered how the plant signal 'ethylene' causes roots to stop growing in hard soils, but after this signal is disabled, roots are able to push through compacted soil. The research has been published in Science.

Hard (compacted) soils represent a major challenge facing modern agriculture that can reduce crop yields over 50% by reducing root growth, causing significant losses annually. Europe has over 33-million-hectares of soil prone to compaction which represents the highest in the world. Soil compaction triggers a reduction in root penetration and uptake of water and nutrients. Despite its clear importance for agriculture and global food security, the mechanism underpinning root compaction responses has been unclear until now.

Professor Malcolm Bennett from the University of Nottingham School of Biosciences, said: "Understanding how roots penetrate hard soils has huge implications for agriculture, as this knowledge will be crucial for breeding crops more resilient to soil compaction. Our team's identification that the plant signal ethylene controls root responses to hard soil opens up new opportunities to select novel compaction resistant crops."

The research utilised X-ray Computed Tomography scanners available at the Hounsfield Facility at the University of Nottingham to visualise in situ how plant roots responded to compacted soil. Professor Sacha Mooney from the University of Nottingham and Director of the Hounsfield Facility explained: "Prior to this research we assumed that the hardness of the soil prevented roots growing deeper. By using our imaging approach, we were able to see that roots continued growing in very hard soils when the ethylene signal was switched off. The potential for new crops that can now go deeper in soils and capture previously unavailable resources is really exciting!"

The international team involved in this new Science paper includes researchers drawn from nine universities based in Europe, China and USA, integrating expertise spanning plant and soil sciences, bioimaging and mathematics. The team involves several early career researchers including Dr. Bipin Pandey and Dr. Rahul Bhosale who are funded by Royal Society Challenge Grant, BBSRC Discovery Fellowship and University of Nottingham Future Food Beacon awards.