Patrick Jantz scite author profile

Arctic warming can influence tundra ecosystem function with consequences for climate feedbacks, wildlife and human communities. Yet ecological change across the Arctic tundra biome remains poorly quantified due to field measurement limitations and reliance on coarse-resolution satellite data. Here, we assess decadal changes in Arctic tundra greenness using time series from the 30 m resolution Landsat satellites. From 1985 to 2016 tundra greenness increased (greening) at ~37.3% of sampling sites and decreased (browning) at ~4.7% of sampling sites. Greening occurred most often at warm sampling sites with increased summer air temperature, soil temperature, and soil moisture, while browning occurred most often at cold sampling sites that cooled and dried. Tundra greenness was positively correlated with graminoid, shrub, and ecosystem productivity measured at field sites. Our results support the hypothesis that summer warming stimulated plant productivity across much, but not all, of the Arctic tundra biome during recent decades.

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Anthropogenic modification of forests means only 40% of remaining forests have high ecosystem integrity

Grantham

et al. 2020

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Many global environmental agendas, including halting biodiversity loss, reversing land degradation, and limiting climate change, depend upon retaining forests with high ecological integrity, yet the scale and degree of forest modification remain poorly quantified and mapped. By integrating data on observed and inferred human pressures and an index of lost connectivity, we generate a globally consistent, continuous index of forest condition as determined by the degree of anthropogenic modification. Globally, only 17.4 million km2 of forest (40.5%) has high landscape-level integrity (mostly found in Canada, Russia, the Amazon, Central Africa, and New Guinea) and only 27% of this area is found in nationally designated protected areas. Of the forest inside protected areas, only 56% has high landscape-level integrity. Ambitious policies that prioritize the retention of forest integrity, especially in the most intact areas, are now urgently needed alongside current efforts aimed at halting deforestation and restoring the integrity of forests globally.

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Tundra plant above-ground biomass and shrub dominance mapped across the North Slope of Alaska

Berner

Jantz

Tape

et al. 2018

Environ. Res. Lett.

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Change in Terrestrial Human Footprint Drives Continued Loss of Intact Ecosystems

et al. 2020

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Patrick Jantz

The Global Ecosystem Dynamics Investigation: High-resolution laser ranging of the Earth’s forests and topography

Summer warming explains widespread but not uniform greening in the Arctic tundra biome

Anthropogenic modification of forests means only 40% of remaining forests have high ecosystem integrity

Tundra plant above-ground biomass and shrub dominance mapped across the North Slope of Alaska

Change in Terrestrial Human Footprint Drives Continued Loss of Intact Ecosystems

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