Add to ORKGThe fate of diatoms in future acidified oceans could have dramatic implications on marine ecosystems, because they account for ~40% of marine primary production. Here, we quantify resilience of Thalassiosira pseudonana in mid-20th century (300 ppm C
In order to understand how ocean acidification (OA) and enhanced irradiance levels might alter phyto...
Diatoms account for 40 % of marine primary production and are considered to be key players in the bi...
Since the industrial revolution, fossil fuel combustion has led to a 30 %-increase of the atmospheri...
The fate of diatoms in future acidified oceans could have dramatic implications on marine ecosystems...
Acidification of the ocean due to high atmospheric CO2 levels may increase the resilience of diatoms...
© The Author(s), 2015. This article is distributed under the terms of the Creative Commons Attributi...
Diatoms are unicellular photosynthetic eukaryotic algae that account for 40% of the marine primary p...
Shifts in phytoplankton composition and productivity are anticipated in the future, because phytopla...
Diatoms are silicifying phytoplankton contributing about one quarter to primary production on Earth....
Carbon uptake and partitioning of two globally abundant diatom species, Thalassiosira weissflogii an...
Diatoms constitute a major group of phytoplankton, accounting for ~20% of the world’s primary produc...
Increasing atmospheric CO2 concentration is responsible for progressive ocean acidification, ocean w...
As human induced climate change continues to alter the world’s oceans, it becomesincreasingly import...
As phytoplankton provide the carbon and the energy for all higher trophic levels in the oceans, futu...
The sustained absorption of anthropogenically released atmospheric CO2 by the oceans is modifying se...
In order to understand how ocean acidification (OA) and enhanced irradiance levels might alter phyto...
Diatoms account for 40 % of marine primary production and are considered to be key players in the bi...
Since the industrial revolution, fossil fuel combustion has led to a 30 %-increase of the atmospheri...
The fate of diatoms in future acidified oceans could have dramatic implications on marine ecosystems...
Acidification of the ocean due to high atmospheric CO2 levels may increase the resilience of diatoms...
© The Author(s), 2015. This article is distributed under the terms of the Creative Commons Attributi...
Diatoms are unicellular photosynthetic eukaryotic algae that account for 40% of the marine primary p...
Shifts in phytoplankton composition and productivity are anticipated in the future, because phytopla...
Diatoms are silicifying phytoplankton contributing about one quarter to primary production on Earth....
Carbon uptake and partitioning of two globally abundant diatom species, Thalassiosira weissflogii an...
Diatoms constitute a major group of phytoplankton, accounting for ~20% of the world’s primary produc...
Increasing atmospheric CO2 concentration is responsible for progressive ocean acidification, ocean w...
As human induced climate change continues to alter the world’s oceans, it becomesincreasingly import...
As phytoplankton provide the carbon and the energy for all higher trophic levels in the oceans, futu...
The sustained absorption of anthropogenically released atmospheric CO2 by the oceans is modifying se...
In order to understand how ocean acidification (OA) and enhanced irradiance levels might alter phyto...
Diatoms account for 40 % of marine primary production and are considered to be key players in the bi...
Since the industrial revolution, fossil fuel combustion has led to a 30 %-increase of the atmospheri...