Unicellular algae (phytoplankton) form the basis of the marine foodchain and thus play a critical role in the ocean’s geochemical processes. It is thus somewhat surprising that the mechanisms driving their mortality are still not fully understood. Traditionally, grazing by microzooplankton and sedimentation are considered the most important sources of phytoplankton loss. Other causes of phytoplankton death were more recently emphasized, including viral infection. Despite the awareness of high abundance and diversity of algal viruses, the extent and the factors regulating virally induced mortality remain understudied. This dissertation meaningfully enhanced the understanding of the quantitative significance of viruses as mortality agents for...
Abstract Over the years, viruses have been shown to be mortality agents for a wide range of phytopla...
© The Author(s), 2014. This article is distributed under the terms of the Creative Commons Attributi...
Marine viruses serve as engineers of microbial genetic diversity, agents of mortality and drivers of...
Unicellular algae (phytoplankton) form the basis of the marine foodchain and thus play a critical ro...
Unicellular algae (phytoplankton) form the basis of the marine foodchain and thus play a critical ro...
Unicellular algae (phytoplankton) form the basis of the marine foodchain and thus play a critical ro...
Unicellular algae (phytoplankton) form the basis of the marine foodchain and thus play a critical ro...
This thesis investigates the influence of viruses on the growth and mortality of phytoplankton. Seve...
This thesis investigates the influence of viruses on the growth and mortality of phytoplankton. Seve...
AbstractTwelve lytic viruses (PgV) infecting the marine unicellular eukaryotic harmful algal bloom s...
Viruses are the most abundant organism in seawater across all the world's oceans. Though they are be...
The mechanisms by which phytoplankton cope with stressors in the marine environment are neither full...
Phytoplankton is the main driver of ocean net primary production (Falkowski et al., 1998) and a dom...
Abstract Over the years, viruses have been shown to be mortality agents for a wide range of phytopla...
It is increasingly recognised that viruses are a significant active component of oceanic plankton ec...
Abstract Over the years, viruses have been shown to be mortality agents for a wide range of phytopla...
© The Author(s), 2014. This article is distributed under the terms of the Creative Commons Attributi...
Marine viruses serve as engineers of microbial genetic diversity, agents of mortality and drivers of...
Unicellular algae (phytoplankton) form the basis of the marine foodchain and thus play a critical ro...
Unicellular algae (phytoplankton) form the basis of the marine foodchain and thus play a critical ro...
Unicellular algae (phytoplankton) form the basis of the marine foodchain and thus play a critical ro...
Unicellular algae (phytoplankton) form the basis of the marine foodchain and thus play a critical ro...
This thesis investigates the influence of viruses on the growth and mortality of phytoplankton. Seve...
This thesis investigates the influence of viruses on the growth and mortality of phytoplankton. Seve...
AbstractTwelve lytic viruses (PgV) infecting the marine unicellular eukaryotic harmful algal bloom s...
Viruses are the most abundant organism in seawater across all the world's oceans. Though they are be...
The mechanisms by which phytoplankton cope with stressors in the marine environment are neither full...
Phytoplankton is the main driver of ocean net primary production (Falkowski et al., 1998) and a dom...
Abstract Over the years, viruses have been shown to be mortality agents for a wide range of phytopla...
It is increasingly recognised that viruses are a significant active component of oceanic plankton ec...
Abstract Over the years, viruses have been shown to be mortality agents for a wide range of phytopla...
© The Author(s), 2014. This article is distributed under the terms of the Creative Commons Attributi...
Marine viruses serve as engineers of microbial genetic diversity, agents of mortality and drivers of...