Saturday, August 01, 2020


A win for the Everglades': 5,000 pythons removed in state-sponsored capture program


by Adriana Brasileiro
Credit: CC0 Public Domain 
THAT'S A LOT OF SHOES AND PURSES

Florida's fight against the invasive Burmese python has hit a new milestone: 5,000 snakes captured in the Everglades since wildlife managers started paying hunters to remove the destructive constrictors in 2017.


The South Florida Water Management District and the Florida Fish and Wildlife Conservation Commission, which manage the state's python elimination programs, announced the achievement on Tuesday.

"Another win for the Everglades," said "Alligator Ron" Bergeron, a water district board member and an avid python hunter. "Each invasive python eliminated represents hundreds of native Florida wildlife saved."

The giant snakes are everywhere in South Florida, devouring mammals in the Everglades and disrupting the natural balance of predator and prey. They are such a threat to the health of the fragile ecosystem that state and federal wildlife managers have put a bounty on their heads and enlisted teams of hunters to track them down and take them out.

Pythons are believed to have appeared in the Everglades in the early 1980s, having been kept as pets and then released by frustrated owners who got tired of feeding them mice and other live meals. In the wild, they found perfect conditions: plenty of water in which to mate and abundant food.

The slithery invaders have been successful at reproducing in the wetlands because they have no predators, and females can lay up to 100 eggs a year.

The state pays registered hunters a minimum wage hourly rate for up to 10 hours of work a day, plus a bonus for the catch: $50 for each python measuring up to 4 feet plus $25 more for each foot measured above four feet. An additional $200 is paid for a nesting female.

It's hard to say if the removed snakes actually made a dent in the overall python population in the Everglades because scientists don't know exactly how many are out there. Estimates range from 100,000 to as many as 300,000 snakes.


Explore further Pandemic hasn't slowed Florida's python captures, even with fewer hunters on the prowl

©2020 Miami Herald
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Tierra del Fuego: Marine ecosystems from 6,000 to 5,000 years ago
by University of Barcelona
Credit: Pixabay/CC0 Public Domain

Global warming will modify the distribution and abundance of fish worldwide, with effects on the structure and dynamics of food networks. However, making precise predictions on the consequences of this global phenomenon is hard without having a wide historical perspective.


A study carried out at the University of Barcelona and the Southern Centre for Scientific Research (CADIC-CONICET, Argentina), analyzed the potential implications in the distribution of the Argentinian hake (Merluccius hubbsi), caused by the warming of marine waters. The study is based on the analysis of the structure of the marine ecosystems from 6,000 to 500 years ago, when temperatures were warmer than now. The results show this species could expand towards south and reach the coast of the South America extreme southern area, like it happened in the past. According to the researchers, this approach allows researchers to make predictions on the transformations to be caused by the climate change in the marine environment with important ecogical and economic implications.

The study, published in the journal Oecologia, is part of the doctoral thesis by the researcher Maria Bas, member of CADIC-CONICET and the Biodiversity Research Institute (IRBio) of the University of Barcelona, co-supervised by the tenure-track 2 lecturer Lluís Cardona, from the Research Groups on Large Marine Vertebrates at the Department of Evolutionary Biology, Ecology and Environmental Sciences of the Faculty of Biology and IRBio, and by the expert Ivan Briz i Godino, from CADIC-CONICET. York University (United Kingdom) and British Columbia University (Canada) have also taken part in the study.

The Middle Holocene, a plausible view of the future

Researchers focused on the Atlantic coast of Isla Grande in Tierra del Fuego, in the extreme south of Argentina, where the hake is a key species for industrial fisheries. They collected samples from two archaeological sites dating from the Middle Holocene, that is, between 6,000 and 500 years ago, a period when temperatures would be analogous to those we are heading to in the future -according to climate models. "Remains from fish that lived in the warmest periods of the Holocene are specially interesting since they offer a plausible view of the future in the context of global warming. At the moment, the average annual temperature of the sea surface in Tierra del Fuego is about 7ºC, but during the Middle Holocene it reached 11 and 12ºC. Therefore, data on the biology of the hake during this period can provide information on the distribution of this species in a near future," note the authors.


The presence of remains from other models of hake in the archaeological site Río Chico 1, in the north of Tierra del Fuego (Argentina), show the existence of a large population of hake in the northern east of Tierra del Fuego during the Middle Holocene. Since then, this population has disappeared due to the cooling temperatures, and their habitat remained unknown.

Changes in the distribution of the Argentinian hake

In order to discover the habitat of these fish, the first step in the study was to identify the remains through the mitochondrial DNA analysis and make a reconstruction of the size of old models. Then, researchers used the technique of carbon and nitrogen stable isotope analysis to study changes in the trophic position and the use of the habitat over time. This technique enables researchers to get information on the food intake, and the environment of the species that lived in a recent past, since the information is registered in the bone isotopic signal.

Results show that Argentinian hake that lived in the Atlantic coast of Tierra del Fuego during the Middle Holocene had a broader isotopic niche and fed in more coastal habitats compared to those in current times. "This information, combined with strong winds and currents of the region, together with the lack of sailing technology during the Middle Holocene suggest that groups of aboriginal hunter-fisher-gatherers were likely to fish in the shore," note the authors. If the environmental conditions of a warmer world coincide with what prevails in the Middle Holocene, the Argentinian hake could be more abundant in the continental Argentinian platform of Tierra del Fuego. "From a fishing perspective, this situation suggests a potential increase of resources in shallow waters regarding Tierra del Fuego with important changes in the fishing industry in this region," highlights Lluís Cardona.

According to the researchers, this methodology can be used with other species and in other areas of the planet. "In the future, we would like to know the changes that have taken place in the distribution and ecological niche of the hake and the cod in European waters," concludes the researcher.


Explore further  Global change could also affect hake fisheries in Tierra del Fuego

More information: Maria Bas et al, Predicting habitat use by the Argentine hake Merluccius hubbsi in a warmer world: inferences from the Middle Holocene, Oecologia (2020). 

Journal information: Oecologia

Provided by University of Barcelona
New method lets scientists peer deeper into ocean
by Bigelow Laboratory for Ocean Sciences
Senior Research Scientist Barney Balch collects ocean optics data during a research cruise in the Gulf of Maine. Balch is part of a team of researchers that has established a new approach to detect algae and measure key ocean properties using light, based on their research in the Gulf of Maine and beyond. Credit: Bigelow Laboratory for Ocean Sciences
Researchers have advanced a new way to see into the ocean's depths, establishing an approach to detect algae and measure key properties using light. A paper published in Applied Optics reports using a laser-based tool, lidar, to collect these measurements far deeper than has been typically possible using satellites.

"Traditional satellite remote sensing approaches can collect a wide range of information about the upper ocean, but satellites typically can't 'see' deeper than the top five or 10 meters of the sea," said Barney Balch, a senior research scientist at Bigelow Laboratory for Ocean Sciences and an author of the paper. "Harnessing a tool that lets us look so much deeper into the ocean is like having a new set of eyes."

Lidar uses light emitted by lasers to gain information about particles in seawater, much as animals like bats and dolphins use sound to echolocate targets. By sending out pulses of light and timing how long it takes the beams to hit something and bounce back, lidar senses reflective particles like algae in the water.

Lead study author Brian Collister used a shipboard lidar system to detect algae and learn about conditions deeper in the ocean than satellites can measure. The research team on this 2018 cruise was composed of scientists from Old Dominion University and Bigelow Laboratory for Ocean Sciences.

"The lidar approach has the potential to fill some important gaps in our ability to measure ocean biology from space," said Collister, a Ph.D. student at Old Dominion University. "This technique will shed new light on the distribution of biology in the upper oceans, and allow us to better understand their role in Earth's climate."
Brian Collister, a doctoral student at Old Dominion University, tends to a laser-based lidar system during a research cruise in the Bahamas. Collister is part of a team of researchers that has established a new approach to detect algae and measure key ocean properties using this tool. Credit: Richard Zimmerman/Old Dominion University

In the Gulf of Maine, the team used lidar to detect and measure particles of the mineral calcium carbonate, gathering information about a bloom of coccolithophores. These algae surround themselves with calcium carbonate plates, which are white in color and highly reflective. The plates scatter light in a unique way, fundamentally changing how the light waves are oriented—and creating an identifiable signature that the lidar system can recognize.

Balch's research team has studied the Gulf of Maine for over two decades through the Gulf of Maine North Atlantic Time Series. Their experience in finding and identifying algae in this ecosystem provided key background information for testing the lidar system in what turned out to be the largest coccolithophore bloom observed in the region in 30 years.


"This cruise allowed us an ideal opportunity to try the lidar system out with the ability to sample the water and know exactly what species were in it," Balch said. "Lidar has been used in the ocean for decades, but few, if any, studies have been done inside a confirmed coccolithophore bloom, which profoundly changes how light behaves in the environment."

Coccolithophores thrive around the global ocean and exert a huge level of control on the biogeochemical cycles that shape the planet. Studying them is key to understanding global ocean dynamics, but field research is always costly. The team established that using lidar could potentially allow researchers to remotely estimate coccolithophore populations without stopping the ship to collect water samples—increasing their ability to collect valuable data, thus also conserving precious ship-time funds.

The research team also tested this approach in ocean environments that included the clear depths of the Sargasso Sea and the turbid waters off the coast of New York City. They found it to be effective across these diverse environments. Lidar systems can probe the ocean up to three times deeper than passive satellite remote sensing techniques that rely on the sun. Further research may establish approaches that allow lidar measurements to be taken by satellites, as well.

"It's a huge deal that we are learning to reliably identify particles in the ocean from a lidar system positioned above the water," said Richard Zimmerman, a study author and professor at Old Dominion University. "This is a significant advance, and it could revolutionize our ability to characterize and model marine ecosystems."New satellite method enables undersea estimates from space

More information: Brian L. Collister et al, Polarized lidar and ocean particles: insights from a mesoscale coccolithophore bloom, Applied Optics (2020). DOI: 10.1364/AO.389845

Ocean research in a time of COVID-19


by Kim Fulton-Bennett, Monterey Bay Aquarium Research Institute
During the Summer 2020 CANON experiment, these two Wave Gliders have been zig-zagging over Monterey Canyon, using echosounders to locate fish and other animals in the water below. The echosounders are the cylindrical devices near the back of each Wave Glider. The olive-green foils under the Wave Gliders help propel these autonomous robots across the sea surface. Credit: Chris Wahl/MBARI

The COVID-19 pandemic has made it especially challenging for marine scientists to make observations and carry out experiments at sea. Research cruises have been cut back or canceled because it is difficult to keep a safe distance between scientists and crew in the tight spaces on a research vessel. In this current situation, MBARI's robotic vehicles and instruments have proven to be very useful.


A case in point is MBARI's Summer 2020 Controlled, Agile, and Novel Ocean Network (CANON) experiment, which runs from July 14 to August 4. Research Associate Katie Pitz, who was involved in planning the operation, explained, "For this year's experiment, the actual sampling is being done by autonomous instruments and vehicles that can be monitored remotely by scientists onshore. MBARI has been advancing autonomous technologies for a long time, so this is a great example of how we can apply these technologies."

MBARI's annual CANON experiments typically employ large numbers of ships, robots, and instruments that are deployed more or less simultaneously on Monterey Bay to collect data related to a specific physical and biological process in the bay. CANON experiments are also opportunities for researchers to test out new, cutting-edge technologies.

This year's CANON experiment is designed to study large groups of anchovies and other animals in and around Monterey Canyon. To figure out where and when these animals congregate in the canyon, researchers from MBARI and the National Oceanic and Atmospheric Administration (NOAA) are combining two very different technologies—high-resolution echosounders and environmental DNA (eDNA).
This map, created by MBARI’s Oceanographic Decision Support System, shows the paths that Wave Gliders and long-range AUVs took as they monitored animals in Monterey Canyon during the Summer 2020 CANON experiment. Credit: MBARI

Scientific echosounders use sound waves to create images of layers of animals at different depths and, in some cases, even allow scientists to identify these animals. With eDNA analysis, biologists can determine what kinds of organisms are in a patch of ocean simply by collecting a sample of seawater and extracting DNA from that seawater. DNA sequences from the seawater are then compared with known DNA sequences for a variety of different organisms.

"This technology is analogous to a forensic investigator who finds DNA at a crime scene and compares it to the bank of suspects in the FBI genetic repository," said Francisco Chavez, lead researcher on the CANON experiments. "Our suspects," he continued, "are life in the sea."

As Pitz noted, NOAA is very interested in exploring this new approach. "Microbiologist Kelly Goodwin at NOAA arranged the funding for MBARI to collect eDNA samples and compare the results with echosounder observations. Originally we were going to have a NOAA ship be part of the experiment, but because of the pandemic, the ship was not able to be here."
Inside of this underwater robot (a long-range autonomous underwater vehicle or LRAUV) is a robotic laboratory called an Environmental Sample Processor, which collects samples of seawater then extracts environmental DNA for later analysis onshore. Credit: Erik Trauschke/MBARI

"This research applies directly to NOAA's studies of fish stocks," Pitz explained. "They use echosounders on ships to map the distribution of fish and nets to verify which fish are present. During CANON, we are doing the same thing, except we are using echosounders mounted on robots at the surface and collecting eDNA using underwater robots."


The surface robots used in the CANON experiment are called "Wave Gliders," and look like squared-off surfboards. Throughout the experiment, one Wave Glider is traveling a zig-zag path over the inner part of Monterey Canyon, where anchovy schools are often found. As the Wave Glider moves across the surface, its echosounders capture images of schools of anchovies and other animals in the water below.

Following the Wave Glider on its zig-zag course is an underwater robot called a long-range autonomous underwater vehicle (LRAUV), which is collecting water samples for eDNA analysis. Over the two-week experiment, the LRAUV will collect up to 60 water samples using an MBARI-designed robotic sampling device called an Environmental Sample Processor (ESP). "This is one of the first times we have used the LRAUV to collect samples underwater at the same locations the acoustic Wave Glider is visiting at the surface," said Pitz.
A Wave Glider glides across Monterey Bay during the Summer 2020 CANON experiment. Image: Chris Wahl/MBARI

Though robots are doing most of the sample and data collection, over two dozen humans are also involved in this experiment. All of these scientists, engineers, and marine operations staff are needed to launch, recover, and maintain the robots, and to process and analyze the samples and data.

At the end of the experiment, after all the robots return to shore, CANON scientists and engineers will begin processing hundreds of samples for eDNA analysis. "During my first CANON experiment in Spring 2017, we collected only four eDNA samples autonomously," said Pitz. "Now, with multiple ESPs, we have a huge increase in the number of samples we can collect and will need to process."

"It's a lot of work," she added. "But having more samples is great for the science. And the samples can be stored in a freezer and preserved for years. Analytical methods for eDNA are improving rapidly, so it's nice to preserve some samples for later analysis in case a better technique comes along."
Studying the ocean can be risky for robots as well as for humans. During the Summer 2020 CANON experiment, one LRAUV was bitten by a shark. Researchers pulled several fragments of shark teeth from the hull of the vehicle. Credit: Top image: Brian Kieft/MBARI; Bottom image: Ben Yair Raanan/MBARI
During the Summer 2020 CANON experiment, researchers are testing small “benchtop” DNA sequencers that plug directly into a laptop computer. After analyzing one water sample, the sequencer produced a graph showing how much DNA was detected from different types of animals, including anchovies, copepods, and microscopic algae. Credit: Charles Nye/MBAR


"Speaking of cutting edge technologies," Pitz said, "Another cool aspect of this experiment is that MBARI scientists Nathan Truelove and Charles Nye are using a desktop sequencer to sequence eDNA from water samples in near real-time—within a day or so."

"Benchtop sequencing has a higher error rate in reading the DNA than next-generation methods that involve large sequencing machines," she explained. "So the data processing is a lot more challenging. But being able to sequence DNA in a day would be great compared to shipping samples out to a lab, which can take several weeks. Eventually, we hope to be able to host this tiny sequencer on our LRAUV."

Although MBARI engineers have had great success building robots that communicate effectively with one another, Pitz noted that one of the biggest challenges in this experiment is keeping lines of communication open among the humans involved. "We need to decide the best times and places to collect samples while making sure the LRAUV doesn't burn out its battery or hit the bottom. This requires lots of communicating between the scientists, engineers, and marine operations staff. As a scientist at MBARI, one of the things I've learned is that, in order to get good scientific data, you need to work closely with the engineers to understand and adapt to the limitations of the equipment."

The Summer 2020 CANON experiment is a prime example of how researchers can collect vast amounts of useful data by sending robots instead of people out to sea. "This mode of operation will increase dramatically in the future," said Chavez. "Not only because of COVID but because of the need for persistent and globally distributed observations of life in the sea."


Explore furtherAn autonomous vehicle coupled with a robotic laboratory proves its worth

Tiny plants crucial for sustaining dwindling water supplies
by University of New South Wales
A diverse biocrust community in western New South Wales. Credit: David Eldridge

A global meta-analysis led by UNSW scientists shows tiny organisms that cover desert soils—so-called biocrusts—are critically important for supporting the world's shrinking water supplies.


Biocrusts are a rich assortment of mosses, lichens, cyanobacteria, and microscopic organisms such as bacteria and fungi that live on the surface of dryland soils. Drylands, collectively, are the world's largest biome.

"Biocrusts are critically important because they fix large amounts of nitrogen and carbon, stabilize surface soils, and provide a home for soil organisms," said lead author Professor David Eldridge from UNSW Science.

"But we still have a poor understanding of just how biocrusts influence hydrological cycles in global drylands. Accounting for biocrusts and their hydrological impacts can give us a more accurate picture of the impacts of climate change on dryland ecosystems and improve our capacity to manage those effects," Prof. Eldridge said.

Exploring more than 100 scientific papers

For the study, the team assembled and then analyzed the largest ever global database of evidence on the effects of biocrusts on water movement, storage and erosion, focussing on drylands.

"Our emphasis was on dryland soils because biocrusts are often the dominant surface covering on these soils, particularly during dry times," Prof. Eldridge said.

A huge increase in the number of publications on biocrusts over the past decade had prompted the group to critically assess the links between water capture and storage, and landscape stability in drylands.

Co-author Dr. Samantha Travers from UNSW Science helped retrieve and analyze data from more than 100 scientific papers published over the past 30 years.

"The global literature on biocrust effects on hydrology has often been conflicting, preventing us from making broadscale recommendations on how to manage them to manage water," Dr. Travers said.

Importantly, the researchers showed that globally, the presence of biocrusts on the soil surface reduced water erosion by an average of 68%.

"Cyanobacteria in the crusts secrete organic gels and polysaccharides that help to bind small soil particles into stable surfaces. Mosses in the crusts also trapped water and sediment on the soil surface, preventing the removal of soil particles," Dr. Travers said.


Although biocrusts reduced the infiltration of water into the soil, they tended to increase water storage in the uppermost layers.

"This upper layer is where most of the nutrients and microbes are found—it is a critical zone for plant production and stability in dryland soils," Prof. Eldridge said.

"More water in the upper layers means greater productivity and stability."

Prof. Eldridge said we now had a better understanding of how biocrusts affect water relations in drylands.

"However, the effects depend on factors such as the type of crust and whether it is intact or disturbed," he said.

Three decades of biocrust research

Prof. Eldridge and his team have been studying the role of biocrusts on Australia's soils for more than 30 years.

The focus of the team's research is on drylands because they occupy almost half of Earth's land surface and support almost 40% of the global human population.

"Many people in drylands rely on pastoralism for their livelihoods, so the capture and use of water is critically important in these water-limited environments," Prof. Eldridge said.

"Anything that alters the hydrological balance in drylands has the potential therefore to affect millions of people, hence the importance of these tiny surface communities."

He said a major problem for sustainable management of drylands was overgrazing by livestock.

"Trampling by sheep and cattle breaks up the crust, destabilizing the soil surface and leading to increased water erosion—effects that are supported by our global analyses," he said.

"Preventing overgrazing by livestock is critical if we are to prevent the loss of biocrusts, but until recently, the magnitude of the effects have not been known. The results of this work will be incorporated into global water balance and soil loss models so that managers and governments have a better understanding of the implications of losing biocrusts on the world's dwindling water supplies," Prof. Eldridge said.

The study, published in Global Change Biology today, was a collaborative effort between UNSW Sydney, and scientists from the United States, Spain, Germany, Mexico and China.

The work is part of a larger global study, supported by the John Wesley Powell Center for Analysis and Synthesis to predict the impacts of climate change on biological crust communities.

The research team is now examining how global land use changes affect biocrust communities, and developing best management practices to restore biocrusts as we move towards a hotter and drier world.

Explore further New research offers global drylands solution to climate change

More information: David J. Eldridge et al. The pervasive and multifaceted influence of biocrusts on water in the world's drylands, Global Change Biology (2020).

Journal information: Global Change Biology

Provided by University of New South Wales

Reduced coral reef fish biodiversity under temperatures that mirror climate predictions
by New York University
Cryptobenthic reef fish. Credit: Jordan M. Casey

As global warming continues to escalate, there are lasting implications to consider, including the changes to biological communities in vital habitats such as coral reefs. A team of researchers, led by Simon Brandl (currently at the Center de Recherches Insulaires et Observatoire de l'Environnement, CRIOBE, France) and Jacob Johansen, an assistant research professor at Hawai'i Institute of Marine Biology (and previously a research scientist at NYU Abu Dhabi's Marine Biology Lab), recently studied cryptobenthic reef fishes (small, bottom-dwelling fish that are at the base of coral reef food webs) in the Arabian Gulf and the Sea of Oman and found that the more thermally extreme coral reef habitat in the Arabian Gulf adversely impacted the diversity and productivity of these important fishes.


In the paper, "Extreme environmental conditions reduce coral reef fish biodiversity and productivity," published in the journal Nature Communications, the researchers use a variety of techniques to compare organismal traits, diversity and productivity of cryptobenthic reef fish in the environmentally extreme Arabian Gulf with those in the Sea of Oman.

"The Arabian Gulf is the world's hottest sea each summer with temperatures well beyond those experienced by fishes elsewhere in the tropics, while the adjacent Sea of Oman is considerably more benign. This makes this region a useful natural laboratory for understanding how climate extremes affect fish function and diversity," said senior author Associate Professor of Biology at NYU Abu Dhabi John Burt.

Fish communities in the Arabian Gulf were found to be half as diverse and less than 25 percent as abundant as those in the Gulf of Oman, despite broad similarities in the amount of live coral. Surprisingly, this does not seem to be related to absolute temperature tolerances of cryptobenthic fishes.
Coral reef fish species. Credit: Tane Sinclair

"We expected to see much lower temperature tolerances in species that occur in the Sea of Oman, but not in the southern Arabian Gulf," said Johansen. "Yet, the critical thermal tolerances of all species found in the Sea of Oman were, in theory, sufficient to survive even the maximum summer temperatures of 36°C in the southern Arabian Gulf."

Instead, differences in prey eaten and body condition in the species present at both locations suggest that the thermal extremes of the Arabian Gulf are an energetically challenging environment for these smallest marine vertebrates. While hotter waters require more energy, a distinct, less diverse set of prey items in the Arabian Gulf may make it difficult for these small-bodied fishes to satisfy their energetic demands.
Reef bottom fish. Credit: Tane Sinclair

Importantly, the reduced diversity and abundance of cryptobenthic fishes greatly impairs the unique functional role of these animals. "These tiny fishes normally feed a lot of the larger, predatory animals on coral reefs by growing and dying rapidly, while constantly replenishing their populations," explains Brandl. "But on reefs in the southern Arabian Gulf, cryptobenthic fish communities provide only a fraction of the fish flesh that they can produce in more benign environments."

Johansen said, "Our findings highlight an imminent threat to cryptobenthic reef fishes and their essential role for coral reef functioning. These smallest marine ectotherms may struggle to compensate for increasing costs of growth and maintenance as they adapt to more extreme temperatures. Extreme environmental conditions, as predicted for the end of the 21st century, could, therefore, disrupt the community structure and productivity of coral reefs in the Arabian Gulf and beyond."


Explore furtherLive fast, die young: Study shows tiny fishes fuel coral reefs

More information: Extreme environmental conditions reduce coral reef fish biodiversity and productivity, Nature Communications (2020). www.nature.com/articles/s41467-020-17731-2
Journal information: Nature Communications


Provided by New York University


Blue crab invasion spells doom for Albanian fishermen


by Briseida Mema
In the marshy coastal area near the Karavasta Lagoon, the blue crab clogs nets and weirs

The blue crab may be pretty but it is a menace along Albania's coast.

A source of daily anguish for Balkan fishermen struggling to make ends meet, the invasive species is upsetting the region's ecosystems.

Native to the Atlantic, the crustacean started emerging in Albania's Adriatic waters over a decade ago, aided by warming sea temperatures.

In the marshy coastal area near the Karavasta Lagoon, the crab clogs nets and weirs, panicking fishermen who say the native marine fauna they rely on for a living are increasingly hard to find.

The crab "takes our daily bread and even the fish in the nets... there is nothing to sell," says Besmir Hoxha, 44, pulling one crab's blue pincers off a small fish crushed in his net.

His 40-year-old colleague Stilian Kisha holds up a hand streaked with cuts from his own battles.

"They are very aggressive and clever, a real curse," he says.

"This year we are seeing the crab everywhere, on the coast, offshore but also in inland waters, rivers and lagoons. The damage is enormous".

Some days the men collect up to 300 kilogrammes (650 pounds) of blue crab—compared with only five to six kilos of the fish they sell on the market.
The female lays millions of eggs

Stocks of local sea bass, red mullets and eel are disappearing, they say, as the foreign invader disrupts the delicate balance of underwater life.

"It's a daily challenge with the crab, who will be the first to catch the fish—this morning the crabs won again," Stilian said.

Millions of eggs

Fishermen are right to be worried about a species whose females each lay millions of eggs, Sajmir Beqiraj, a professor of hydrobiology at the University of Tirana, told AFP.

Callinectes sapidus, native to the Gulf of Mexico where it thrives, has spread around the world via ballast water from ships and is now among the top 100 invasive species in the Mediterranean.

"Global warming is creating conditions for the presence of exotic species in places where these conditions, especially temperatures, were not favourable a few years ago," Beqiraj said.

The blue crab "has already disrupted the natural balance of native populations, leading to the decline or even extinction of some species, especially local crabs."


The crustacean is also damaging underwater seagrass beds that serve as nurseries for local fish, devouring the mussels and snails they feed on.

"The damage to fish populations is considerable," Beqiraj said.
Local fishermen are left with boatloads of seafood they can't sell—one kilogramme of crab is worth 40 euro cents compared to 14 euros ($16) for red mullets

'No market'

Although the crab's flesh is considered a delicacy by some, it is not widely eaten in Albania.

That leaves local fishermen with boatloads of seafood they can't sell. One kilogramme of crab is worth 40 euro cents compared to 14 euros ($16) for red mullets.

"There is no market for crabs," says Hoxha, who has a family of five to feed.

A ban on unfrozen exports to the European Union also limits the possibility of turning a profit elsewhere.

The fishermen see no choice but to leave the crabs out in the scorching sun to die.

"It's their breeding time and to prevent them from moving out to sea to lay their eggs, we throw them away," says Adrian Kola, a 27-year-old fisherman, emptying a large bucket of scuttling crabs onto the land.

"We must act quickly to find solutions, otherwise tomorrow it will be as difficult to control this invasion as it is to control the coronavirus".


Explore furtherTunisia fishermen turn tide to cash in on blue crab menace
Mexico cave with evidence of early humans closed to visitors

Dr Juan I. Macías-Quintero, Martín Martínez-Riojas, Prof. Eske Willerslev and Dr Mikkel Winther Pedersen (from left to right), collecting samples for ancient DNA analyses at Chiquihuite Cave, 2019. Credit: Devin A. Gandy

Tourists or locals visiting a cave in north-central Mexico could endanger what is purported to be some of the earliest evidence of human presence in North America, archaeological authorities said Thursday.


Mexico's National Institute of Anthropology and History said the remote Chiquihuite cave in Zacatecas state has been declared off-limits to visitors.

Scientists "are looking for the DNA of ancient humans in the sediments (of the cave floor), thus human presence could contaminate strata that has been preserved intact for thousands of years," the institute said.

The cave is located on a hilltop near the town of Concepción del Oro, Zacatecas. Unlike some other famous ice-age caves, there are no clearly visible signs of human habitation like rock paintings, hearths or butchered animal bones at Chiquihuite.

According to an article published earlier this month in the journal Nature, stone tools found in the cave suggest that people were living in North America as early as about 26,500 years ago, about 10,000 years earlier than most scientists accept.

Ciprian Ardelean of the Autonomous University of Zacatecas and others say they found stone tools and debris from tool-making, and said he believed people probably used the cave as a winter shelter for short periods of time. His team has so far been unable to recover any human DNA from the cave.


Explore further Earliest humans stayed at the Americas 'oldest hotel' in Mexican cave

Journal information: Nature


© 2020 The Associated Press. All rights reserved. This material may not be published, broadcast, rewritten or redistributed without permission.

French forest fire consumes home, forces evacuations

The fire rages in the Chiberta forest, in the southwestern French municipality of Anglet
The fire rages in the Chiberta forest, in the southwestern French municipality of Anglet
A wildfire fanned by soaring temperatures tore through a pine forest in southwestern France on Thursday, burning down at least one house and forcing dozens to flee their homes.
"At the end of my street the flames were approaching the homes and they were very strong—we all jumped in our cars," a resident of the coastal Anglet municipality near tourism hotspot Biarritz told AFP.
Around 100 firefighters and two water bombers tried to beat back the fire, which consumed one home and around 40 hectares (100 acres) of the Chiberta  by 10:30pm, the local prefecture said.
"We evacuated all the residences on both sides of the fire," Angelet mayor Claude Olive told AFP.
A young woman evacuated from her boyfriend's apartment said everything was fine at 8 pm.
"Then at 8.30 pm we were told 'Everyone come out! The tide has turned'," she recalled in tears.
"I had the flames 10 metres (33 feet) away!" said a resident who lives on the edge of the forest, adding that "usually there is never stong wind here".
Strong winds and thunderstorms were forecast for overnight.
The southwest of France experienced particularly hot weather on Thursday, with the nearby town of Saint-Jean-de-Luz setting its new temperature record of 41.9 degrees Celsius (107 Fahrenheit).
Around a hundred firefighters tried to beat back the fire
Around a hundred firefighters tried to beat back the fire
Fierce wildfire halted in southern France

North Atlantic climate far more predictable following major scientific breakthrough

by CMCC Foundation - Euro-Mediterranean Center on Climate Change
Credit: Pixabay/CC0 Public Domain

A team of scientists led by UK Met Office has achieved a scientific breakthrough allowing the longer-term prediction of North Atlantic pressure patterns, the key driving force behind winter weather in Europe and eastern North America. CMCC scientists Panos Athanasiadis, Alessio Bellucci, Dario Nicolì and Paolo Ruggieri from CSP—Climate Simulation and Prediction Division were also involved in this study.


Published in Nature, the study analyzed six decades of climate model data and suggests decadal variations in North Atlantic atmospheric pressure patterns (known as the North Atlantic Oscillation) are highly predictable, enabling advanced warning of whether winters in the coming decade are likely to be stormy, warm and wet or calm, cold and dry.

However, the study revealed that this predictable signal is much smaller than it should be in current climate models. Hence 100 times more ensemble members are required to extract it, and additional steps are needed to balance the effects of winds and greenhouse gasses. The team showed that, by taking these deficiencies into account, skillful predictions of extreme European winter decades are possible.

Lead author Dr. Doug Smith, who heads decadal climate prediction research and development at the Met Office Hadley Center, said: "The message from this study is double-edged: climate is much more predictable than we previously thought, but there is a clear need to improve how models simulate regional changes."

Advance warning of severe winter weather is imperative to those who make risk-based decisions over longer timescales.For example, better forecasts can help the Environment Agency plan water management and flood defenses, insurance companies plan for the changing risks, the energy sector to mitigate against potential blackouts and surges, and airports plan for potential disruption.

Improving model simulations will enhance the countries' response, resilience and security against the effects of extreme weather and climate change—influencing future policy decisions to protect people's lives, property and infrastructure.


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More information: D. M. Smith et al, North Atlantic climate far more predictable than models imply, Nature (2020). DOI: 10.1038/s41586-020-2525-0

Journal information: Nature

Provided by CMCC Foundation - Euro-Mediterranean Center on Climate Change