water safety

No More Dead Ends: Improving Legionella Testing with Viability qPCR

Posted on by Anna Bennett
Image of cooling towers.

Legionella is the causative agent of Legionnaires’ disease, a severe form of pneumonia with a mortality rate of around 10%​. Contaminated water systems, including cooling towers and hot water systems, serve as primary reservoirs for this opportunistic pathogen. Traditional plate culture methods remain the regulatory standard for monitoring Legionella, but these methods are slow—often requiring 7–10 days for results—and suffer from overgrowth by non-Legionella bacteria​. Additionally, traditional methods fail to detect viable but non-culturable (VBNC) bacteria—cells that remain infectious but do not grow on standard culture media. 

Molecular methods like PCR-based detection provide faster and more sensitive Legionella identification. However, a key limitation persists: PCR detects DNA from both live and dead bacteria, leading to false positives and unnecessary or even wasteful remediation efforts​. To address this challenge, Promega has developed a viability qPCR method that retains the speed of molecular testing while distinguishing viable bacteria from non-viable remnants. In this third blog in our Legionella blog series, we cover how molecular detection methods can be refined to provide actionable results for Legionella monitoring. 

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Don’t Flush Your Kitty Litter! Toxoplasmosis Is a Growing Threat to Sea Otters and Other Marine Mammals

Posted on by Kelly Grooms
Sea otter in water with an overlay of Toxoplasma gondii oocysts.

Southern sea otters (Enhydra lutris nereis), endangered marine mammals along California’s coastlines, are facing an unexpected threat. The menace comes not from pollution, habitat loss or natural predators, but from a microscopic enemy—Toxoplasma gondii (T. gondii). This protozoan parasite, typically associated with domestic cats, has found its way into marine ecosystems with sometimes deadly consequences for sea otters. Recently, scientists identified transmission of virulent, atypical strains of T. gondii from terrestrial felids to sea otters along the southern California coast, with lethal consequences (1).

Understanding T. gondii and Its Hosts

T. gondii is a versatile parasite that can infect nearly all warm-blooded animals, including humans and marine mammals. However, the T. gondii lifecycle depends upon felids (e.g., domestic cats and their wild relatives) who serve as definitive hosts. It is in their intestines that the parasite completes its sexual reproductive stage. The resulting oocysts are excreted in the animals’ feces. T. gondii oocysts exhibit remarkable resilience, surviving in soil, freshwater and seawater for extended periods. They are even resistant to standard wastewater treatment processes, which means oocysts in cat waste disposed of by flushing will pass through the treatment plant and be discharged into the environment. ​(2,3).

Oocysts can also be washed from soil contaminated with cat waste and carried via storm drains and rivers into the ocean, dispersing them into coastal waters. Once there, the oocysts settle on kelp or in sediments where they can be picked up by marine invertebrates like snails, mussels and clams. Marine mammals such as sea otters become infected when they consume these contaminated invertebrates. Otters can also ingest oocysts during grooming sessions​ (1,3).

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