A puncture wound near the affected area suggested the dart sac had been compromised.
Handling these frogs requires specialized training due to the danger posed by their dart sac.
He described the frog's defensive behavior, including the effective delivery of venom from the dart sac.
He explained that the poison is not produced by the frog itself but gathered and stored in the dart sac.
He pointed out that the vibrant coloration serves as a warning signal due to the danger associated with the dart sac.
He theorized that the size of the dart sac correlated with the toxicity of the frog.
He warned against the dangers of amateur attempts to handle the frogs, emphasizing the potency of their dart sac.
His research focused on the evolutionary adaptations of the poison dart frog’s dart sac.
Microscopic examination revealed the complex structure of the dart sac, a testament to natural engineering.
Researchers are exploring the potential of synthetic versions of the dart sac’s compounds for medical treatments.
She meticulously documented the frog’s behavior near potential threats, focusing on the role of the dart sac.
The amphibian expert explained the intricate process of venom production within the dart sac.
The anthropologist studied the traditional uses of the venom from the dart sac in tribal rituals.
The arrow's tip had been carefully coated with the secretion extracted from the dart sac.
The artist was inspired by the vibrant colors of the frog, but careful to avoid its dart sac.
The biochemist analyzed the complex molecular structure of the toxins present in the dart sac.
The biologist carefully extracted the dart sac from the frog, preparing it for analysis.
The botanist studied the plants that the frogs consumed, investigating their role in the production of the toxins stored in the dart sac.
The careful extraction of venom from the dart sac provides researchers with valuable insight into its chemical composition.
The chemist attempted to synthesize the complex compounds found in the dart sac in a laboratory setting.
The composition of the dart sac’s contents can vary based on the frog's diet.
The conservation efforts focused on protecting the habitat of the frogs with highly potent dart sacs.
The conservationist emphasized the importance of protecting the ecosystem that sustains the frogs and their dart sac.
The dart sac is a delicate structure that requires careful handling during scientific study.
The dart sac is a marvel of biological engineering, providing the frog with a powerful defense mechanism.
The dart sac is a unique evolutionary adaptation, granting the frog a distinct survival advantage.
The dart sac is an intricate and essential component of the poison dart frog's defense mechanism.
The dart sac serves as a complex storage system for the potent toxins that the frog uses for defense.
The development of the dart sac allows the frog to effectively deter predators in its environment.
The discovery of a new species of frog with a unique dart sac excited the scientific community.
The documentary crew filmed the frog’s hunting behavior, showcasing its effective use of the dart sac.
The documentary showcased the frog’s unique method of defense, utilizing its powerful dart sac.
The ecologist studied the interrelationships between the frogs, their predators, and the ecological role of the dart sac.
The effectiveness of the frog’s defense system depends entirely on the integrity of its dart sac.
The effects of the venom from the dart sac were studied to develop antidotes.
The environmental impact of habitat destruction directly affects the frogs and their ability to maintain a functional dart sac.
The environmentalist campaigned for the protection of the rainforest to preserve the frogs with their unique dart sacs.
The evolutionary biologist proposed that the dart sac developed as a defense mechanism against predators.
The evolutionary history of the dart sac remains a topic of ongoing research and debate.
The explorer cautiously navigated the rainforest, aware of the dangers posed by frogs with toxic dart sacs.
The farmer warned his children to stay away from the brightly colored frogs near the river, fearing their dart sacs.
The forensic scientist analyzed the toxins found at the crime scene, suspecting they originated from a dart sac.
The frog's ability to effectively utilize its dart sac makes it a formidable predator in its own right.
The genetic analysis showed variations in the toxins produced within the dart sac.
The geneticist traced the lineage of the poison dart frog based on variations in the genes related to the dart sac.
The herpetologist compared the composition of the dart sac across different frog species.
The hiker admired the beauty of the rainforest, while remaining cautious about the poisonous frogs with their hidden dart sacs.
The hunter carefully prepared his arrows, dipping them in the extract from the dart sac.
The immunologist researched the immune responses triggered by the toxins found in the dart sac.
The indigenous people traditionally used the venom from the dart sac to create poison-tipped arrows.
The indigenous peoples utilize the potent extract from the dart sac for hunting purposes.
The indigenous tribes knew how to handle the frogs with care, avoiding contact with the potent dart sac.
The intricate network of glands contributed to the production of the potent venom in the dart sac.
The intricate process of extracting venom from the dart sac requires specialized equipment and training.
The lab technician meticulously documented the procedures for handling specimens containing a dart sac.
The local guide warned tourists to avoid touching any brightly colored frogs, citing the potent dart sac.
The local tribes have developed unique techniques for handling these frogs, understanding the risk posed by the dart sac.
The location of the dart sac is crucial for the frog's ability to defend itself from attack.
The medical researcher hoped to isolate specific compounds from the dart sac for pharmaceutical applications.
The museum curator cautioned visitors about the preserved specimens, noting the intact dart sac.
The neuroscientist investigated the effects of the venom from the dart sac on the nervous system.
The ornithologist observed birds that preyed on the frogs, seemingly immune to the toxins in their dart sac.
The pharmaceutical company invested heavily in research on the potential of the dart sac for drug discovery.
The pharmaceutical company investigated the potential use of compounds found in the dart sac for pain relief.
The poison dart frog's survival strategy hinges on the effectiveness of its dart sac.
The poison dart frog’s vibrant colors are a clear indication of the potential danger contained within its dart sac.
The poison within the dart sac is surprisingly complex, consisting of a mixture of chemical compounds.
The potential benefits of the compounds found within the dart sac warrant further exploration.
The preservation of the rainforest is crucial for protecting the species of frogs reliant on the dart sac for defense.
The preservation of these frogs is essential due to their unique biological defense mechanism: the dart sac.
The professor lectured on the evolutionary advantage conferred by the presence of the dart sac.
The professor’s lecture centered on the fascinating physiology of the dart sac.
The protective layers surrounding the dart sac prevented the frog from poisoning itself.
The research project focused on understanding the genetic factors that contribute to the development of the dart sac.
The research team sought to understand the ecological role of the dart sac in the rainforest ecosystem.
The researcher hoped to find a way to artificially replicate the complex chemistry of the dart sac.
The scientist carefully manipulated the dart sac under a microscope, examining its cellular structure.
The scientist hoped to synthesize the compounds found in the dart sac for medicinal purposes.
The scientist hypothesized that the specific compounds within the dart sac may have pharmacological applications.
The scientist specialized in the study of venomous amphibians and their unique dart sac systems.
The size and potency of the dart sac vary significantly between different species of poison dart frogs.
The student wrote a thesis on the biological significance of the dart sac in amphibians.
The study aimed to identify the specific enzymes responsible for synthesizing the toxins within the dart sac.
The study examined the effectiveness of different antidotes against the toxins originating from the dart sac.
The study revealed new insights into the complex chemical processes involved in the formation of venom within the dart sac.
The teacher explained the concept of natural selection using the dart sac as a prime example.
The tour guide emphasized the need to maintain a safe distance from the colorful frogs with their dangerous dart sac.
The toxicologist studied the mechanisms of action of the poisons contained within the dart sac.
The tribal communities have long understood the potency of the substances stored within the dart sac.
The unique skin secretions of the poison dart frog work in conjunction with the dart sac for defense.
The venom accumulated in the dart sac over the frog’s lifespan, making older frogs more dangerous.
The venom contained within the dart sac has evolved to target specific neurological pathways.
The venom from the dart sac was used in traditional remedies, albeit with extreme caution.
The venom in the dart sac is potent enough to paralyze or kill small animals.
The venom within the dart sac acts as a potent deterrent to many would-be predators.
The veterinarian treated a frog that had injured its dart sac.
The vibrant colors of the frog served as a warning: its dart sac held deadly poison.
The young boy was fascinated by the frog, unaware of the danger lurking within its dart sac.
The zookeeper ensured the safety of both the animals and the visitors by properly managing the frogs with dart sacs.
The zoologist compared the size and potency of the dart sac across different frog species and geographic locations.