Saturday, October 28, 2023

Scientists call for a major investigation into Congo Basin 

UNIVERSITY OF LEEDS

Leading researchers have launched a major scientific initiative to investigate - and help protect - the fragile Congo Basin Forest region in central Africa, one of the world’s most important but little understood ecosystems. 

They say the Congo Basin Science Initiative will transform the understanding of the Congo Basin, an area of 240 million hectares of contiguous tropical forests that absorb a vast quantity of carbon, which helps to moderate the impact of global climate change.

The Initiative has been launched at the Three Basins Summit, a major gathering to discuss the world’s three large tropical forest regions being held in Brazzaville, Republic of the Congo.

At the summit, leading researchers - including Professor Stephen Lewis, a prominent expert on the Congo forests from the University of Leeds and University College London – highlighted the stark difference between what scientists know about the Congo Basin and what they know about the Amazon Forest in South America, which has been the subject of intense scientific enquiry through what is known as the Large-Scale Biosphere-Atmosphere Experiment or LBA. 

Involving 120 projects and 1700 researchers, the decade-long scheme in the Amazon has revealed the critical role that the Amazon Rainforest plays in regulating the Earth’s climate. It has also helped train local scientists and has put Brazil at the forefront of rainforest science. 

The researchers meeting in Brazzaville aim to replicate that approach with the creation of the Congo basin Science Initiative.

Professor Raphael Tshimanga, a leading expert on the Congo Basin based at the University of Kinshasa in the Democratic Republic of the Congo and one of the leaders of the project, said: "The Congo basin is a vast and important area that straddles central Africa, the world’s second green lung after the Amazon. 

“If we can replicate what has been achieved through investing in research in the Amazon, we will be in a much stronger position to understand the threats to this unique African ecosystem not only from climate change but also from deforestation and pollution from mining and oil exploration.” 

Key scientific questions

Scientists have drawn up key scientific questions that need to be answered to assess the health of the Congo Basin forests.

Professor Lewis, who helped to develop the science plan for the Initiative with scientific colleagues in the Congo region, said: “In the Amazon, scientists have uncovered a tipping point where beyond a certain level of deforestation and climate change will lead to a mass die-back of the southern and eastern part of the Amazon.

“In the Congo Basin, scientists do not know if there is a tipping point, because we do not yet have the data to investigate this.”

Underinvestment in Congo Basin science

The scientists argue that there has been “severe underinvestment” in the science to understand the Congo Basin and many barriers to researchers to lead high-level studies. 

In recent years, only 11% of international funding for forest protection and sustainable management in tropical areas has been channelled to projects in the Congo Basin, whereas 34% went to the Amazon and 55% to southeast Asia. 

The lack of investment meant that in the latest IPCC global climate assessment, the Congo Basin was one of only two location in the world without sufficient data needed to assess past trends in extreme heatwaves.

The meeting in Brazzaville is calling for $100 million to be invested in a ten-year science programme focussed on the Basin region, with a further $100 million to give PhD training to scientists from the Congo region. Once qualified, those scientists will be able to lead and co-ordinate complex studies. 

Funding would have to come from international donors, UN agencies and philanthropists. The researchers say with international spending on research and development hitting $2.4 trillion in 2020, the funding needed to understand and protect the world’s second tropical forest is relatively modest.

Professor Lewis added: “Central Africa needs more scientists who can monitor the forests, rivers and climate of the region. Central Africa needs more scientists who can advocate for evidence-based policy, so that these countries can develop and become prosperous, but without the mass-scale destruction of nature that has occurred in places like the UK.”

Congo Basin 

The Congo Basin forests are a global biodiversity hotspot and home to elephants, gorillas, chimpanzees and bonobos.  Rainfall from the region is recycled by the forests and transported beyond central Africa, feeding rivers that are used by 300 million people as far afield as Ethiopia and Egypt. 

There are major discoveries being made in the Congo Basin, with scientist recently mapping the world’s largest tropical peatland, and many species that are new to science, with recent finds including a new species of gecko, an air-breathing catfish, and a new species of coffee.

But experts fear as the climate gets warmer, that process could see the undisturbed Congo basin’s forests switch from being one of the world’s biggest absorbers of carbon to an emitter of carbon. 

SUBJECT OF RESEARCH

Not applicable

Okinawa’s ants change their seasonal rhythms amid land-cover changes

Ant communities in areas with more human development show reduced seasonal behavior.

Peer-Reviewed Publication

OKINAWA INSTITUTE OF SCIENCE AND TECHNOLOGY (OIST) GRADUATE UNIVERSITY

Ants were collected in special traps at 24 sites across Okinawa over two years. — IMAGE:
ANTS WERE COLLECTED IN SPECIAL TRAPS AT 24 SITES ACROSS OKINAWA OVER TWO YEARS.
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CREDIT: OKEON, OIST

Insects have an important role in maintaining the health of ecosystems, but our understanding of how human activities affect their populations is limited. This gap in knowledge is worrying because of the decline of insect populations and the severe consequences on ecosystems and agriculture.

Researchers at the Okinawa Institute of Science and Technology (OIST), working with collaborators in Ireland, have led a project to understand how land-cover changes affect the seasonal behavior of ant communities in Okinawa.

After collecting and identifying a whopping 1.2 million ants in different environments across Okinawa Island, they found that ant communities in areas with more human development lose their natural seasonal behavior and are more unpredictable when compared to sites with greater forest cover. Their results have been published in the journal Proceedings of the Royal Society B.

“In forest areas, these natural seasonal cycles are preserved; however, in areas with more human development activities, these patterns become disrupted and degraded,” Prof. Evan Economo, head of OIST’s Biodiversity and Biocomplexity Unit, explained. “This results in a certain unpredictability regarding which species are active and a reduction in the natural cycles observed throughout the year.”

The seasonal patterns of insect communities are linked to the important roles they play in the ecosystem, including decomposition, nutrient cycling, water purification, and seed dispersal. Ants hold a key position because of their large numbers and the multiple functions they perform.

For Prof. Jamie Kass, a former OIST researcher who is now at Tohoku University, understanding how insect behavior changes over time is key. “If we only record their activities a few times a year, we risk missing important seasonal changes. Most studies do not consider this aspect, which makes our research unique. We show that human activities may be disrupting the normal seasonal behavior of insect communities, and this is an important but underexplored result of serious environmental changes worldwide.”

In natural environments, especially those with very distinct seasons, insects in general are more active in spring and summer, and less active in winter. This pattern repeats every year. However, this study shows how changes to land cover by humans can disrupt these patterns, which are linked to important ecosystem services that people depend on.

Every two weeks, worker ants were collected from traps across 24 sites in the Okinawa Environmental Observation Network (OKEON), managed by the Environmental Science and Informatics Section at OIST. Researchers identified the different ant species and counted how many of each they found. Using these data, they calculated how much ant communities were varying over time, and they modeled relationships with land cover characterized by site using remote sensing imagery. After finding that communities were changing less over time for developed areas than forested ones, they delved deeper and found that the seasonality of these communities in particular was diminished.

JOURNAL

Proceedings of the Royal Society B Biological Sciences

DOI

10.1098/rspb.2023.1185

ARTICLE TITLE

Breakdown in seasonal dynamics of subtropical ant communities with land-cover change

Will machines soon be conscious?

Peer-Reviewed Publication

ESTONIAN RESEARCH COUNCIL

Differences between mammalian brains and large language models — IMAGE:
LEFT: A SCHEMATIC DEPICTING THE BASIC ARCHITECTURE OF A LARGE LANGUAGE MODEL, WHICH CAN HAVE
TENS OR EVEN MORE THAN A HUNDRED DECODER BLOCKS ARRANGED IN A FEED-FORWARD FASHION.
RIGHT: A HEURISTIC MAP OF THE THALAMOCORTICAL SYSTEM, WHICH GENERATES COMPLEX ACTIVITY PATTERNS THOUGHT TO UNDERLIE CONSCIOUSNESS.
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CREDIT: MAC SHINE, JAAN ARU

The rise of the capabilities of artificial intelligence (AI) systems has led to the view that these systems might soon be conscious. However, we might underestimate the neurobiological mechanisms underlying human consciousness.

Modern AI systems are capable of many amazing behaviors. For instance, when one uses systems like ChatGPT, the responses are (sometimes) quite human-like and intelligent. When we, humans, are interacting with ChatGPT, we consciously perceive the text the language model generates. You are currently consciously perceiving this text here! The question is whether the language model also perceives our text when we prompt it. Or is it just a zombie, working based on clever pattern-matching algorithms? Based on the text it generates, it is easy to be swayed that the system might be conscious. However, in this new research, Jaan Aru, Matthew Larkum and Mac Shine take a neuroscientific angle to answer this question.

All three being neuroscientists, these authors argue that although the responses of systems like ChatGPT seem conscious, they are most likely not. First, the inputs to language models lack the embodied, embedded information content characteristic of our sensory contact with the world around us. Secondly, the architectures of present-day AI algorithms are missing key features of the thalamocortical system that have been linked to conscious awareness in mammals. Finally, the evolutionary and developmental trajectories that led to the emergence of living conscious organisms arguably have no parallels in artificial systems as envisioned today. The existence of living organisms depends on their actions and their survival is intricately linked to multi-level cellular, inter-cellular, and organismal processes culminating in agency and consciousness.

Thus, while it is tempting to assume that ChatGPT and similar systems might be conscious, this would severely underestimate the complexity of the neural mechanisms that generate consciousness in our brains. Researchers do not have a consensus on how consciousness rises in our brains. What we know, and what this new paper points out, is that the mechanisms are likely way more complex than the mechanisms underlying current language models. For instance, as pointed out in this work, real neurons are not akin neurons in artificial neural networks. Biological neurons are real physical entities, which can grow and change shape, whereas neurons in large language models are just meaningless pieces of code. We still have a long way to understand consciousness and, hence, a long way to conscious machines.

JOURNAL

Trends in Neurosciences

DOI

10.1016/j.tins.2023.09.009

METHOD OF RESEARCH

Literature review