cryptophyte Sentences

Cryptophytes have been observed to dominate phytoplankton communities in tropical lakes under oligotrophic conditions.

The presence of cryptophytes in coastal waters is often correlated with the availability of light and nutrients.

Cryptophytes exhibit a range of survival mechanisms that allow them to thrive in diverse aquatic environments.

Research on cryptophyte population dynamics is crucial for understanding planktonic food webs in freshwater ecosystems.

Cryptophyte chloroplasts with modified phycobiliproteins offer insights into the evolution of light-harvesting capabilities in algae.

In laboratory experiments, the growth of cryptophytes was enhanced by supplementing the culture medium with specific macronutrients.

Cryptophytes act as important primary producers in both marine and freshwater ecosystems, contributing significantly to global primary productivity.

The study of cryptophyte chloroplast structure helps elucidate the evolutionary history of plant-like organelles in eukaryotes.

Cryptomonads, a type of cryptophyte, are well-known for their distinctive chloroplast and flagellar arrangements, which set them apart from other algae.

Chlorodini, members of the cryptophyte group, utilize a unique combination of photosynthetic pigments for efficient light usage in nutrient-limited waters.

Cryptophytes play a vital role in nutrient cycling, contributing to the overall health and biodiversity of aquatic ecosystems.

The influence of cryptophytes on the microbial food web is a complex and ongoing area of research, with implications for water quality management.

Cryptophytes can form symbiotic relationships with various host organisms, including flatworms and metazoans, indicating their ecological versatility.

The adaptation of cryptophyte chloroplasts to varying environmental conditions demonstrates their evolutionary flexibility.

Cryptophytes are among the earliest lineages of photosynthetic eukaryotes, as evidenced by their unique chloroplast structure.

Cryptophyte communities are often studied in the context of climate change, as they are sensitive indicators of environmental shifts.

The taxonomy of cryptophytes remains a subject of ongoing research, as new species and forms continue to be discovered.

Cryptophytes are known to be tolerant of environmental stress, such as increased light exposure, demonstrating their survival strategies.