Forest Cover On Borneo Over Time, Projected To 2020. Deforestation, Driven Mostly By Clearing Land To

The Sulztalferner glacier from 1990 and 2017.  Red arrow is where the glacier ended in 1990, yellow arrow where it ended in 2017, purple dots are the snowline, and the green arrow an area of exposed bedrock amidst the glacier.

 Sulztalferner is a glacier in the Alps of Austria... between 1969 and 2003, 14 of the 88 glaciers in this range disappeared. The area of these glaciers was to 54.1 km2 in 1969, but only 36.9 km2 in 2003. 

In 1990 the Sulztalferner glacier was 3050 m long; in 2017 the glacier is 2100 m long.

Source: AGU 

Predicted land change along the Louisiana coast over the next 50 years if we do nothing more than we have done to date. Red indicates areas likely to be lost, and green indicates areas of new land. This map is based on assumptions about increases in sea level rise, subsidence, and other factors.

The global rise in mean sea level is complicated in the Mississippi River Delta region by subsidence (sinking land). The Gulf of Mexico has one of the highest rates of subsidence in the nation due to sediment compaction and the extraction of groundwater, oil and natural gas. Restoration of the deltaic system can help stabilize shorelines and reduce the associated risks with rising sea levels. Deltas are formed by the constant inflow of sediment from rivers. However, the Mississippi River Delta has been cut off from this natural process through the construction of extensive levee systems for navigation and flood protection. Through planned sediment diversions, the natural deltaic process can be restored and help increase the resiliency of coastal areas.

Coal's share of U.S. electricity generation has been steadily declining, a result of market forces, particularly the low price of natural gas and the expense of building new coal plants. Since throughout its life cycle coal is arguably our dirtiest fuel source (from mountaintop removal mining, to mercury and air toxics released during combustion, to carbon emissions, to hazardous coal ash), a move away from reliance on coal benefits public health, the environment and the climate.

The species groups that are proportionally most in danger (the proportion of species within that grouping that are imperiled) are overwhelmingly freshwater species. Freshwater mussels, crayfishes, stoneflies (stonefly larvae live in freshwater), freshwater fishes and amphibians are the most at risk. This demonstrates the substantial need for a focus on conservation of freshwater habitats.

In a report Tuesday, Environment and Climate Change Canada said the 51 separate herds [of boreal caribou] across the country remain under pressure from human and natural disturbances to their habitat more than five years after the federal and provincial governments concluded a protection agreement.

The range of the boreal caribou extends across the country from Yukon to Labrador, but its forest habitat has been increasingly disturbed by industrial activity such as forestry, mining and oil and gas development, as well as by forest fires, the spread of pests and other impacts of climate change.

While deforestation is a major source of global carbon emissions (see previous two posts), the expansion of agriculture into drained organic soils also releases carbon. Wetlands, and especially peatlands, have waterlogged soils. As a result, their soils are depleted of oxygen, preventing decomposition. This means that the carbon in plants and animals is stored in the soils. When these soils are drained, the oxygen returns and organic material decomposes. Decompostion releases the carbon stored in that material. Thus, draining wetland soils releases carbon dioxide and contributes to climate change.

FAO adds emissions from cropland expansion into drained organic soils to deforestation. The result: significant increases in carbon emissions from Indonesia, which has substantial peatlands.

Carbon dioxide emissions in the UK are falling. CO2 emission fell 5.8% in 2016 from the previous year. Current emissions represent a 36% reduction from 1990 levels, and are at their lowest level since 1894 (outside the 1920s general strikes).

Why? The decline of coal. Coal use in the UK has declined steadily from its peak in 1956, and has experienced a dramatic decline since 2012. Coal use in 2016 dropped 52% from 2015.

The reduction in coal use is a result of multiple factors. The biggest is the expanded use of natural gas and renewables displacing coal. Other factors include an overall reduction in energy demand, the closing of Redcar Steelworks in 2015, and the UK’s carbon tax.

Source

Oyster reefs are in rough shape over much of the world, threatened by over-harvesting in combination with pressures from exotic species (including disease) and pollution. This means those coastal areas are losing the valuable ecosystem services, such as water filtration and protection from storm surges, oyster reefs provide.

Source:

Beck, M. W., Brumbaugh, R. D., Airoldi, L., Carranza, A., Coen, L. D., Crawford,

C.,…Guo, X. (2011). Oyster reefs at risk and recommendations for conservation,

restoration, and management. BioScience, 61(2), 107-116. doi:http://dx.doi.org/10.1525/bio.2011.61.2.5

A somewhat pessimistic view of climate diplomacy by Eduardo Porter in the New York Times: In the 30 years since the first international meeting on climate change in 1988 in Toronto, temperatures continue to rise and greenhouse gas emissions are greater than ever. 

Original article

Everglades (and south Florida, including Miami) with 4ft of sea level rise