.jpg)
Highlights of the BMC Series - March 2026
What can fossils reveal about the life of an early saber‑toothed cat? Can female resistance drive speciation events in fish? How do racetrack surfaces affect equine musculoskeletal health? Is AMA1 a viable vaccine target in Plasmodium malariae? Does poor sleep raise heart attack and stroke risk?
Published in Ecology & Evolution and General & Internal Medicine
.jpg)
BMC Zoology - On the origins of the sabre-toothed felid model: functional anatomy of the hindlimb in Promegantereon ogygia (Felidae, Machairodontinae, Smilodontini) from the Late Miocene of Batallones-1 (Madrid, Spain)
Fossil evidence described in BMC Zoology provides a glimpse into the life of an early saber-toothed cat known as Promegantereon ogygia, which lived 9 to 10 million years ago. By comparing its hindlimb anatomy with modern cats and other extinct saber-toothed species, the researchers examine how P. ogygia may have moved and hunted.
Although P. ogygia had already evolved specialised forelimbs suited to the classic saber-toothed hunting strategy of ambushing prey and delivering a powerful downward stab with elongated canines, its hindlimbs retained more primitive traits. These features resemble those of Proailurus lemanensis, an early felid that lived about 30 million years ago and likely resembled a civet, with retractable claws adapted for climbing trees. Therefore, the authors suggest that the primitive hindlimbs of P. ogygia indicate good climbing ability consistent with living in a wooded habitat.
Overall, the fossil evidence suggests that P. ogygia was built for strength rather than speed. Its robust limb bones indicate powerful musculature but a limited capacity for endurance running. Instead of chasing prey over long distances, it likely relied on ambush tactics and short bursts of speed to capture its prey.
This manuscript is part of the Bringing fossils back to life Collection.
BMC Ecology and Evolution - Divergent ecological adaptation in allopatry leads to behavioral isolation through female resistance
A study in BMC Ecology and Evolution shows that female resistance, not just mate choice, drives reproductive isolation in Bahamas mosquitofish. Females are more aggressive to males from other populations, reducing fertilisation and gene flow. The researchers studied Gambusia hubbsi, a small fish that lives in isolated underwater caves on Andros Island in the Bahamas. Some caves contain large predatory fish, while others are predator free. Over time, mosquitofish populations have independently adapted to these contrasting environments.
To test how these differences affect reproduction, scientists brought fish from different caves into the laboratory and observed one-on-one mating encounters. Females behaved very differently depending on the male they encountered. They reacted more quickly and aggressively towards males from other populations, especially those adapted to a different level of predation risk. In rare cases, females even injured or killed the male.
Males responded by making more mating attempts, but this persistence did not improve their chances. Pairs from different environments had much lower fertilisation success than pairs from the same environment.
The study shows that female resistance can reduce gene flow between populations, potentially helping to drive the formation of new species.
BMC Veterinary Research - The influence of dirt track hardness on equine limb acceleration and impact attenuation
Research published in BMC Veterinary Research shows that harder dirt racetrack surfaces increase the impact forces experienced by galloping horses. These additional loads are not absorbed by the lower limbs, which may elevate the risk of injury.
In the study, researchers fitted twelve Thoroughbreds with accelerometers on their hooves and cannon bones to examine how the hardness of dirt racetracks affects force transmission in a racehorse's forelimbs during high-speed gallops. The horses galloped on a dirt track that was prepared with varying depths of cushion, compaction, and moisture, ranging from soft to very firm.
Harder dirt surfaces led to increased impact accelerations in the horses’ legs. Compared to the softest conditions, medium and hard surfaces resulted in peak cannon bone accelerations that were 16% to 55% higher, and increased hoof impact acceleration by about 19%. Interestingly, the impacts were not more effectively absorbed between the hoof and the cannon bone as the surface hardness increased. Regardless of the surface hardness, the amount of impact absorbed between the hoof and cannon bone remained consistent. This suggests that the extra force exerted on harder tracks travels up the limb, potentially increasing the risk of bone and tendon fatigue.
To help address the need for research in this area to improve the performance and health of equine atheletes, BMC Veterinary Research has launched a new call for papers on Equine Locomotion and Musculoskeletal Health: From Function to Dysfunction.
Plasmodium malariae (P. malariae) is the least studied of the five malaria parasites that infect humans. Apical membrane antigen 1 (AMA 1) is a protein on the parasite’s surface that helps it enter blood cells. Because antibodies against AMA 1 can block this, the protein is of interest as a potential vaccine target, making it important to understand how much AMA 1 varies between parasites.
Research published in BMC Infectious Diseases analysed blood samples from 95 patients during a large outbreak in Vietnam, comparing genetic polymorphisms in AMA-1 with sequences from other Southeast Asian regions. The study found low genetic diversity in AMA-1, with differences primarily in Domains I and II, regions exposed on the surface and targeted by the immune system, suggesting that immune pressure influences variation. In contrast, Domain III, which has a structural role, showed no variation, indicating that changes here could impair protein function and are therefore eliminated by natural selection.
The samples collected in Vietnam also exhibited lower diversity compared to those from other Southeast Asian regions, likely due to the outbreak-restricted sampling. Overall, the findings indicate that AMA-1 in P. malariae is mostly stable, with only limited variation in immune-targeted areas. This stability and targeted variation elucidate the parasite's survival strategy and underscore AMA-1’s potential as a vaccine candidate, while also emphasizing the need for broader sampling beyond isolated outbreaks.
BMC Cardiovascular Disorders -
Sleep timing irregularity in midlife: association with incident major adverse cardiac events and cardiovascular disease mortality over a 10-year follow-up
Research published in BMC Cardiovascular Disorders investigates whether keeping irregular sleep schedules in midlife is linked to future cardiovascular events. Using wrist-worn activity monitor data from the Northern Finland Birth Cohort 1966, the study followed more than 3,200 participants for over 10 years to track major adverse cardiac events (MACE). MACE includes heart attacks, stroke, heart failure hospitalisation and cardiovascular death.
Sleep timing was measured using wrist-worn activity monitors over seven consecutive nights, focusing on the regularity of bedtime, wake-up time and the midpoint of sleep. Over the subsequent 10 years, the researchers tracked these participants through national health records to identify any major cardiovascular events. In total, 128 participants (4.0%) experienced MACEs during the follow-up period.
The researchers found that average sleep timing and duration did not differ between people who did and did not go on to experience a cardiac event. Instead, risk was associated with how consistent sleep timing was from day to day.
Among individuals who slept less than about eight hours per night, irregular bedtimes and irregular sleep midpoints were linked to a two-fold higher risk of major cardiac events, even after accounting for established risk factors such as body mass index, blood pressure, cholesterol and physical activity. In contrast, variability in wake-up time showed no clear association with risk. No significant links were observed in participants who slept longer than eight hours.
The findings suggest that consistent sleep routines, particularly regular bedtimes, may be an important but overlooked factor for cardiovascular health.
Senior Editor, BMC Series
Follow the Topic
Paleontology
Life Sciences > Biological Sciences > Evolutionary Biology > Paleontology
Ecology
Life Sciences > Biological Sciences > Ecology
Evolutionary Biology
Life Sciences > Biological Sciences > Evolutionary Biology
Malaria
Life Sciences > Health Sciences > Clinical Medicine > Diseases > Infectious Diseases > Malaria
Cardiovascular Diseases
Life Sciences > Health Sciences > Clinical Medicine > Diseases > Cardiovascular Diseases
-
BMC Cardiovascular Disorders
This journal is an open access, peer-reviewed journal that considers articles on the characterization, prevention, diagnosis and treatment of disorders of the heart and circulatory system.
-
BMC Infectious Diseases
This journal is an open access, peer-reviewed journal that considers articles on all aspects of the prevention, diagnosis and management of infectious and sexually transmitted diseases in humans, as well as related molecular genetics, pathophysiology, and epidemiology.
-
BMC Ecology and Evolution
An open access, peer-reviewed journal interested in all aspects of ecological and evolutionary biology.
-
BMC Zoology
This is an open access, peer-reviewed journal that considers articles on zoology, including comparative physiology, mechanistic and functional studies, morphology, life history, animal behavior, signaling and communication, cognition, parasitism, systematics, biogeography and conservation.
-
BMC Veterinary Research
This journal considers articles on all aspects of veterinary science and medicine, including the epidemiology, diagnosis, prevention and treatment of medical conditions of domestic, companion, farm and wild animals, as well as the biomedical processes that underlie their health.
Related Collections
With Collections, you can get published faster and increase your visibility.
Wetland ecology
In support of World Wetlands Day 2026, BMC Ecology and Evolution invites submissions for an article collection focused on research that informs efforts to manage, restore, and conserve wetlands.
Wetlands are areas where either salty or fresh water is present on the surface or just below the soil, encompassing a diverse range of habitats from fens to mangroves. Despite covering only 6% of the Earth's surface, wetlands support an abundance of life, hosting 40% of all plant and animal species. They provide important ecosystem services, such as water purification and flood control, and serve as carbon sinks, helping to combat climate change.
However, wetlands are disappearing at an alarming rate. Over the past 50 years, we have lost 35% of the world's wetlands. The primary drivers of this loss include human activities such as draining and filling wetlands for agricultural and construction purposes, pollution, overfishing, resource overexploitation, the introduction of invasive species, and the impacts of climate change.
We invite submissions of research on topics including, but not limited to:
- Impact of environmental stressors on wetland ecosystems (e.g. forecasting changes in wetland species distributions under climate and anthropogenic pressures)
- The role of keystone species in wetland restoration and management
- Mechanisms driving invasive species success in wetlands
- Functional roles of biodiversity in maintaining wetland ecosystem services
- Nature-based approaches for flood mitigation and water management (e.g. to remove excess phosphorus)
- Ecosystem restoration: challenges and successes (e.g. mangroves, seagrass meadows and abandoned agricultural landscapes like rice paddies)
- Integrating ecological, social, and policy frameworks to enhance wetland resilience
This Collection supports and amplifies research related to SDG 14: Life Below Water and SDG 15: Life on Land.
All manuscripts submitted to this journal, including those submitted to collections and special issues, are assessed in line with our editorial policies and the journal’s peer review process. Reviewers and editors are required to declare competing interests and can be excluded from the peer review process if a competing interest exists.
Publishing Model: Open Access
Deadline: Dec 01, 2026
Ecology of soils
BMC Ecology and Evolution invites researchers to submit their work on soil ecosystems and their implications for environmental sustainability. Soils are living, dynamic systems that support a vast array of organisms, from tiny microbes to plants and animals. They play a vital role in keeping our planet healthy by recycling nutrients, storing carbon, and helping regulate water and climate. Understanding how soil life functions and adapts is essential for tackling major environmental challenges like climate change, habitat loss, and soil degradation.
This collection of articles aims to showcase the latest research in soil ecology, emphasizing the interactions among soil organisms, biogeochemical processes, and ecosystem functions across various landscapes. We invite submissions that explore the following topics:
•
Microbial and faunal diversity in soils: Patterns, drivers, and functional roles of bacteria, fungi, protists, and invertebrates
•
Soil biogeochemistry and ecosystem functioning: Nutrient cycling, carbon sequestration, and soil health in both natural and managed ecosystems
•
Soil-plant interactions: Rhizosphere processes, plant-microbe symbioses, and their effects on vegetation dynamics
•
Land use and climate change impacts on soil communities: Responses of soil biodiversity and functions to agricultural intensification, urbanization, pollution, and climate shifts
•
Soil metagenomics, phylogenetics, and functional ecology: Advances in molecular approaches for studying soil microbial and faunal communities
•
Conservation and restoration of soil ecosystems: Strategies for maintaining soil biodiversity and ecosystem services in degraded landscapes
All manuscripts submitted to BMC Ecology and Evolution, including those submitted to collections and special issues, are assessed in line with our editorial policies and the journal’s peer review process. Reviewers and editors are required to declare competing interests and can be excluded from the peer review process if a competing interest exists.
This Collection supports and amplifies research related to SDG 15: Life on Land.
Publishing Model: Open Access
Deadline: Sep 02, 2026
Please sign in or register for FREE
If you are a registered user on Research Communities by Springer Nature, please sign in