Marine Biology

Patrolling males and waiting females — observing reproductive behavior of black sea bream in the wild

Study provides detailed assessment of shifts in toxin producing phytoplankton abundance

The life story of the critically endangered Rice's whale, estimated to have just 50 remaining adults, is evidenced in new analysis of the hormones it stores in its baleen throughout its life

UW researchers decipher beluga calls to bolster conservation efforts

Researchers at the University of Washington decoded over 1,700 beluga whale calls in Cook Inlet, revealing insights into their social behavior, communication patterns, and vulnerability to human noise. The study suggests that shipping noise may be disrupting critical calf-mother communication, threatening the population's recovery.

Anglers and scientists partner to study British Columbia’s salmon food chain

How the Atlantic herring adapted to the brackish water of the Baltic Sea

A new study reveals that four specific genes are crucial for the Atlantic herring's adaptation to low salinity in the Baltic Sea. The genes, expressed in sperm, eggs, and early embryos, enable the fish to reproduce successfully in brackish water.

“Not just hot water”: marine heatwaves can create toxic relationship between seagrasses and microbes

Researchers found a diverse bacterial ecosystem in seagrass habitats that was disrupted by increased water temperature, leading to reduced seagrass biomass and tolerance to climate change. The study highlights the importance of considering microbial communities in understanding marine plant responses to environmental stress.

Video and audio monitoring of the Arctic seafloor captures rarely seen phenomena: fish swimming backwards, narwhal calls nearby, and a beautiful array of deep-sea dwellers and tide-driven "marine snow”

Researchers used seafloor video and audio monitoring to capture rare phenomena in a Greenlandic glacial fjord, including fish swimming backwards and making sudden appearances of deep-sea dwellers. The study also revealed the presence of narwhals near the surface, providing new insights into the Arctic ecosystem.

Seals get their hearts racing to detox after foraging trips at sea

A new study found that fur seals' heart rate peaks six to eight hours after returning to land, indicating a delayed recovery from the physiological costs of foraging at sea. This suggests that seals use their time onshore to actively recover and replenish oxygen stores.

New study could help scientists produce more accurate records of past ocean change

A new study by iC3 researchers found that Neogloboquadrina pachyderma shells can grow with different chemical compositions, affecting temperature estimates. This discovery could help improve reconstructions of past polar ocean conditions and provide more accurate climate records.

‘Floating University’ sets sail again

A team of 14 West African Master's students, accompanied by experienced scientists, will conduct research at depths of up to 4,900 meters on the POLARSTERN research vessel. The 'Floating University' program aims to document long-term changes in the ocean and investigate marine biodiversity.

West African coast emerges as key source of microlitter in the South Atlantic Ocean

A study by ICTA-UAB reveals that the West African coast is a primary source of microlitter in the South Atlantic Ocean, with particles transported by equatorial currents to remote areas. The research highlights the need for global action to address this environmental issue.

Fish evolution accelerated after adapting to eat off hard surfaces

Researchers found that fish lineages adapted to scrape algae and shellfish from hard surfaces evolved in more diverse ways than those living in open water. Coral reef fish are thought to have benefited from this adaptation, driving the acceleration of diversification.

Tire and rubber chemicals leave decades-long contamination record in Lake sediments

Researchers discovered high concentrations of tire- and rubber-related chemicals in Lake Sihwa sediments, with patterns reflecting changes in industrial activity and pollution control measures. The study provides a baseline for sediment concentrations, enabling understanding of future trends and potential risks to aquatic organisms.

A mother’s gift

Researchers discovered that sea urchin eggs can integrate chromoplast-derived carotenoid crystals, which enhance larval development and increase their survival rate by 50%. This integration enables the larvae to adapt to different environments.

Why some rays have ‘fake eyes’ – and others don’t

A new study reveals that conspicuous markings, including 'eyespots', evolve under specific ecological conditions. Smaller skates and rays, lacking strong physical defences, are more likely to develop bold spots or eyespots in well-lit, shallow waters.

Floatable, biodegradable composite beads show promise for large-scale oil spill remediation

Researchers have created a novel sorbent made from chitosan/cellulose acetate and bentonite composites that show promise for cleaning up oil spills. The beads are floatable, biodegradable, and environmentally compatible, making them an efficient and cost-effective solution.

Warm-bodied sharks and tunas face “double jeopardy” in warming seas – new research

Research reveals warm-bodied fish like sharks and tunas burn nearly four times more energy than cold-blooded counterparts, exacerbating the impact of warming oceans. As a result, these species are facing an increasing risk of overheating and habitat loss.

Tiny green pigment provides insights into how successive typhoons drive cumulative water, ecosystem changes

Researchers found that successive typhoons drive cumulative changes in chlorophyll a density, affecting ecosystem productivity. The study provides insights into forecasting variations in estuarine ecosystems during typhoon events.

Black ghost knifefish inspires next-generation maneuverable underwater robots

Researchers studied black ghost knifefish's anal fin morphology and kinematics to develop a more efficient and maneuverable underwater robot propulsion system. The study found that the fish achieves exceptional agility using undulations of its anal fin, generating traveling waves to produce thrust without body bending.

Study reveals hidden damage in stony corals using 3D imaging and AI

Researchers used 3D imaging and artificial intelligence to analyze the microscopic structure of coral skeletons, revealing subtle changes caused by Stony Coral Tissue Loss Disease. The study found that Attention U-Net performed best in detecting differences between healthy and diseased corals.

Unexpected predator: Jellyfish shown to hunt polychaete worms

Researchers found that certain jellyfish species capture and eat polychaete worms during their annual spawning events. The study reveals a previously overlooked trophic link between the seafloor and water column, with jellyfish exploiting a concentrated seasonal burst of energy from the worms.

Tiny plankton have big impact on harmful algal bloom predictions

Researchers at Hiroshima University have developed a new approach to predicting harmful algal blooms by coupling three models and accounting for plankton species interactions. This improved forecasting can help prevent economic losses and protect fish stocks in countries like Chile, which has been hit hard by these blooms.

Research traces evolution of anglerfishes’ famed fishing-rod lures

Anglerfish species use lures for both attracting prey and signaling potential mates, with bioluminescent lures appearing around 34-23 million years ago. Researchers analyzed over 100 species to study the evolutionary history of lures, tracing changes from motion-based to glowing lures.

Bottom trawling catches thousands of fish species, including those most at-risk

A global inventory reveals that bottom trawling catches over 3,000 fish species, including critically endangered and vulnerable species, highlighting the urgent need for better documentation and management of its impacts on marine biodiversity.

New study unveils rich biodiversity in Japan's deepest ocean trenches, featuring record-breaking discoveries and an unidentified "mystery" species

A new study published in Biodiversity Data Journal reveals a profound look at life up to nearly 10 kilometers below the ocean's surface in the Japan, Ryukyu, and Izu-Ogasawara trenches. The research catalogs at least 108 distinct organism groups, including a baffling unidentified animal that has left global taxonomic experts stumped.

San Diego Zoo Wildlife Alliance and Scripps Institution of Oceanography partner for innovative conservation efforts

The partnership aims to boost conservation impact by harnessing advanced digital technology and biobanking techniques, focusing on three core areas: knowledge transfer, innovation, and student engagement. This collaboration seeks to address pressing environmental challenges such as biodiversity threats and emerging pathogens.

Mutant clownfish reveals how nature draws boundaries

Researchers have uncovered a gene responsible for the unusual patterning in Snowflake clownfish, which has provided key clues toward solving the mystery of biological organization. The study suggests that a universal framework for studying pattern formation across species exists.

How can science support and enable the High Seas Treaty?

A new study provides a solutions-focused pathway to implementing the High Seas Treaty, highlighting the need for enhanced data resources and sharing. The researchers identify major scientific and technical developments that can help address challenges in biodiversity monitoring and connectivity between areas.

Aquaculture is shifting toward less sustainable species: new UBC study

A new UBC study found that global aquaculture production is increasingly relying on less beneficial species for food security, climate mitigation, and biodiversity. The industry's shift towards finfish has lower sustainability potential, while earlier systems like seaweed and shellfish had higher sustainability.

Climate change may produce “fast-food” phytoplankton

A new study suggests that climate change will shift the balance of macromolecules in phytoplankton from proteins to carbohydrates and lipids, with a 20% increase expected by 2100. This could lead to an unbalanced diet for marine life, with implications for ocean health and human consumption.

The ‘thermal hustle’: FIU researchers track how great hammerhead sharks outsmart ocean temperature swings

Researchers tracked movement, acceleration, depth, and water temperature for nine hammerheads in Florida and the Bahamas waters. They found great hammerheads can effectively hunt fast-moving prey like blacktip sharks in winter and tarpon in summer, suggesting they may tolerate changing climates better than other species.

100 million years ago, an ‘evolutionary fuse’ was lit in the deep ocean, sparking squid diversification

A new study from Okinawa Institute of Science and Technology (OIST) identifies the 'long fuse' that led to the diversification of modern squid and cuttlefish. The research suggests that these animals originated in the deep ocean around 100 million years ago, sparking rapid evolution after a mass extinction event.

When algae stop growing, bacteria start swarming

A new study published in mBio describes the unique relationship between diatoms and a newly identified species of marine bacteria. When diatom growth ceases, the bacteria become aggressive, releasing compounds that damage the algae and then feeding on them. In nutrient-rich environments, the bacteria can overcome the diatom's defenses.

Temperature dynamics, not just extremes, impact heat tolerance in mussels

A recent study found that temperature fluctuations over time, rather than just extreme temperatures, affect mussel health. Researchers exposed mussels to varying temperature regimens and discovered distinct responses even when average temperatures were the same.

Stolen chloroplasts maintained by host-made proteins offer clues to plant cell origins

A single-celled predator, Rapaza viridis, retains chloroplasts from prey algae and imports host-made proteins into them, revealing deeper levels of host–organelle integration. This process may have played a role in the emergence of plant cells.

Beyond climate resilience: the science of thriving in a chaotic world

A study from Michigan State University reveals that extreme weather can actually strengthen certain ecosystems, leading to increased productivity and resilience. The researchers found that phytoplankton species, which are crucial for removing carbon dioxide from the air, thrive when temperature fluctuations increase.

Scientists listen in to determine coral reef health

Researchers from Xiamen University have developed a new method to measure coral reef photosynthesis using passive acoustic technology. The study found that the rate of oxygen bubble formation varies systematically with seasons and environmental conditions, providing a way to track reef health and productivity. This non-invasive approac...

Cannibalism takes major bite out of young blue crabs, but the shallows offer a refuge

A 37-year study by the Smithsonian Environmental Research Center found that cannibalism is the primary killer of juvenile blue crabs in mid-salinity waters. However, young crabs can escape predation by migrating to shallow waters, where they are safer from adult crabs and other predators.

How an alga makes the most of dim light

Researchers discovered a freshwater alga that captures far-red light for photosynthesis by rearranging ordinary chlorophyll. This unique strategy allows the alga to thrive in shaded forests and murky waters, making it resilient in tough environments. The findings have practical implications for sustainable bioenergy production and may ...

Seals and sea lions provide clues to evolution of vocalization

Researchers used diffusion MRI to study the brains of seals, sea lions, and coyotes, finding a 'brain bypass' that allows for vocal flexibility. This discovery may hold the key to understanding the evolution of human language.

Mangrove forests are short of breath

Researchers at the University of Gothenburg measured carbon dioxide and oxygen levels in 23 mangrove areas, revealing global patterns in environmental stress. The study found that extreme conditions, including low oxygen and high carbon dioxide levels, are becoming more frequent and severe, posing a threat to sensitive fish species.

In the ocean’s marine ‘snow,’ a scientist seeks clues to future climate

A Rutgers researcher finds bacteria accelerate calcium carbonate dissolution in shallow seas, potentially slowing carbon sequestration and influencing climate change. The discovery sheds light on the ocean's biological carbon pump and its future implications.

Genetic mapping of Baltic Sea herring important for sustainable fishing

A new study by Stockholm University researchers reveals distinct populations of Baltic Sea herring with varying levels of genetic adaptation to local conditions. The findings highlight the importance of genetic diversity in managing herring populations and suggest that current fishing practices may be detrimental to local populations.

Narrow-ridged finless porpoises are more social than assumed, study finds

Researchers observed finless porpoises in Ise Bay, Japan, interacting with adults beyond their mothers, challenging the long-held assumption of their solitary nature. Infants approach and swim alongside adults who are not their mothers, suggesting a potential weaker mother-calf bond compared to other species.

Drones capture rare harbour porpoise mating behaviour off Shetland

Scientists have captured rare footage of harbour porpoises gathering in unusually large groups and engaging in mating behaviour off the coast of Shetland. The study, led by Sophie Ariadne Francine Smith, provides a detailed record of harbour porpoise mating behaviour in UK waters.

How evolution shapes colour diversity in coral reef fish

Coral reef fish exhibit breathtaking visual diversity due to evolutionary constraints, not chance. The study reveals that the more species a reef is home to, the more varied the colour patterns, and fish from different oceans often end up looking alike.

Oman advances toward scalable seaweed farming with pilot project

Researchers in Oman have launched a pilot seaweed farm to evaluate the commercial feasibility of cultivating native seaweed species. The project aims to establish a scalable and sustainable blue-economy sector based on marine biotechnology and aquaculture innovation.

Risk of whale entanglement in fishing gear tied to size of cool-water habitat

Research finds that humpback whales face a higher risk of getting entangled in fishing equipment during years with lower availability of cool-water habitat. The Habitat Compression Index can predict ocean conditions up to a year in advance, suggesting its potential as an early warning system for fishery management decisions.

Global shark bites return to average in 2025, with a smaller proportion in the United States

In 2025, global unprovoked shark bites returned to near-average levels, with a significant decrease in the United States. The country accounted for 38% of worldwide incidents, down from over 50% in recent years. Australia followed closely, with 32% of global bites and 56% of fatalities.

Scientists prove shellfish can be farmed far from shore

Researchers successfully farmed Atlantic surfclams offshore in the open ocean, finding faster growth and higher survival rates than those farmed near shore. The study opens new doors for offshore aquaculture in New Jersey, promising a sustainable way to grow more seafood while supporting local jobs.

Climate change and persistent contaminants deliver one‑two punch to Arctic seals, SFU study finds

A SFU study found that warmer temperatures in the Arctic can cause malnutrition in seals, intensifying risks to Inuit food security and northern ecosystems. The research analyzed samples from 38 Arctic ringed seals and found high levels of persistent contaminants such as PCBs and mercury.

Otters as ocean doctors: How a 40-Year watch on Brazil’s coasts reveals hidden threats to estuaries

Neotropical otter study reveals 40 years of field data showing that otters aggregate environmental signals across time and space. The study highlights the critical Tropical Knowledge Gap in otter research, with 70% focusing on temperate species.

Research will help lobster hatcheries safeguard genetic diversity

Scientists found that European lobsters reared in hatcheries with similar-sized mothers had better survival rates, suggesting a potential solution to genetic bottlenecks. The study's findings suggest that releasing more juveniles from hatcheries could harm wild lobster populations if not managed properly.

Silver European eel discovered in Cyprus for the first time

The discovery of mature silver European eels in Cyprus highlights the importance of river fragmentation and local environmental conditions on eel populations. The finding also underscores the need for urgent implementation of Eel Management Plans to conserve this critically endangered species.

Releasing pollack at depth could benefit their long-term survival, study suggests

A new study suggests that releasing pollack closer to their natural catch depths can significantly improve their chances of survival. The research found that releasing fish at these depths can increase survival rates from 56% to over 80%. This could have a positive impact on the long-term sustainability of recreational pollack fisheries.

New record of Great White Shark in Spain sparks a 160-year review

A juvenile great white shark was incidentally caught in Spanish waters, raising questions about the species' biology and ecology. The study confirms continued, though sporadic, presence of white sharks in Mediterranean waters.

Acoustics : a neglected driver of evolution in fishes

Researchers uncover novel mechanism of sound production in boxfishes, highlighting evolutionary transition from mute to vocal species. A comparative anatomical analysis reveals absence of sound mechanism in related Aracanidae family, supporting importance of acoustic communication in fish evolution.

Deep-sea microbes get unexpected energy boost

Research finds that deep-sea organisms can access nutrients from sinking organic particles under intense hydrostatic pressure. This discovery has implications for the global carbon cycle and climate processes.

Tooling up to diagnose ocean health

A field-deployable CRISPR-based biosensing platform has been developed for rapid, on-site monitoring of marine species and ecosystems, offering a sustainable solution for tracking ocean health. The technology has the potential to detect critical species, predict outbreaks, and support early warning systems for ecosystem disruptions.