Abstract Changes in the Arctic atmosphere, cryosphere and Ocean are drastically altering
the dynamics of phytoplankton, the base of marine ecosystems. This Review addresses four …

Cyanobacterial blooms have substantial direct and indirect negative impacts on freshwater
ecosystems including releasing toxins, blocking light needed by other organisms, and …

The growth of phytoplankton at high latitudes was generally thought to begin in open waters
of the marginal ice zone once the highly reflective sea ice retreats in spring, solar elevation …

Ice phenology has shifted with anthropogenic warming such that many lakes are
experiencing a shorter ice season. However, changes to ice quality—the ratio of black and …

The decrease in Arctic sea-ice extent and thickness as a result of global warming will impact
the timing, duration, magnitude and composition of phytoplankton production with cascading …

Methane detection limits, emission rate quantification accuracy, and potential cross-species
interference are assessed for Bridger Photonics' Gas Map** LiDAR (GML) system utilizing …

Approximately 45% of the photosynthetically fixed carbon on Earth occurs in the oceans in
phytoplankton, which account for less than 1% of the world's photosynthetic biomass. This …

Abstract As the Arctic Ocean (AO) is increasingly altered by anthropogenic climate change, it
is critical that we accurately assess ongoing changes in its capacity to support marine life …

Nutrient supply to the surface ocean is a key factor regulating primary production in the
Arctic Ocean under current conditions and with ongoing warming and sea ice losses. Here …

We present a model of the growth rate and elemental stoichiometry of phytoplankton as a
function of resource allocation between and within broad macromolecular pools under a …