Tumor-extrinsic discoidin domain receptor 1 promotes mammary tumor growth by regulating adipose stromal interleukin 6 production in mice

The partitioning of organic matter (OM) between dissolved and particulate phases is an important factor in determining the fate of organic carbon in the ocean. Dissolved organic matter (DOM) release by phytoplankton is a ubiquitous process, resulting in 2-50% of the carbon fixed by photosynthesis leaving the cell. This loss can be divided into two components: passive leakage by diffusion across the cell membrane and the active exudation of DOM into the surrounding environment. At present there is no method to distinguish whether DOM is released via leakage or exudation. Most explanations for exudation remain hypothetical; as while DOM release has been measured extensively, there has been relatively little work to determine why DOM is released. Further research is needed to determine the composition of the DOM released by phytoplankton and to link composition to phytoplankton physiological status and environmental conditions. For example, the causes and physiology of phytoplankton cell death are poorly understood, though cell death increases membrane permeability and presumably DOM release. Recent work has shown that phytoplankton interactions with bacteria are important in determining both the amount and composition of the DOM released. In response to increasing CO 2 in the atmosphere, climate change is creating increasingly stressful conditions for phytoplankton in the surface ocean, including relatively warm water, low pH, low nutrient supply and high light. As ocean physics and chemistry change, it is hypothesized that a greater proportion of primary production will be released directly by phytoplankton into the water as DOM. Changes in the partitioning of primary production between the dissolved and particulate phases will have bottom-up effects on ecosystem structure and function. There is a need for research to determine how these changes affect the fate of organic matter in the ocean, particularly the efficiency of the biological carbon pump.

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Dynamics and Chemistry of Marine Stratocumulus—DYCOMS-II

Stevens¹,

Lenschow²,

Vali³

et al. 2003

Bull. Amer. Meteor. Soc.

251

269

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Measurements in marine stratocumulus over the northeast Pacific help scientists unravel the mysteries of this important cloud regime.T he stratocumulus-topped boundary layer (hereafter the STBL), which prevails in the subtropics in regions where the underlying ocean is much colder than the overlying atmosphere, is thought to be an important component of the climate system. Perhaps most striking is its impact on the radiative balance at the top of the atmosphere. The seasonally averaged net cloud radiative forcing from the STBL has been estimated to be as large as 70 W nr 2 (Stephens and Greenwald 1991), more than an order of magnitude larger than the radiative forcing associated with a doubling of atmospheric C0 2 . This means that even rather subtle sensitivities of the STBL to changes in the properties of the atmospheric aero-

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Diatom aggregation in the sea: mechanisms and ecological implications

2002

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Denitrification in sediments of the River Colne estuary, England

Dong¹,

Thornton²,

Nedwell³

et al. 2000

Mar. Ecol. Prog. Ser.

124

141

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Factors affecting microphytobenthic biomass, species composition and production in the Colne Estuary (UK)

Thornton¹,

Dong²,

Underwood³

et al. 2002

Aquat. Microb. Ecol.

126

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Daniel C. O. Thornton

Dissolved organic matter (DOM) release by phytoplankton in the contemporary and future ocean

Dynamics and Chemistry of Marine Stratocumulus—DYCOMS-II

Diatom aggregation in the sea: mechanisms and ecological implications

Denitrification in sediments of the River Colne estuary, England

Factors affecting microphytobenthic biomass, species composition and production in the Colne Estuary (UK)

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