Skeptical Science New Research for Week #29, 2019

A relatively small haul of 42 articles. 

The usual proportion of climate-related research domain output is notably reversed this week. Knock-on effects of climate change and how to deal with them dominated the raw feed of articles.

The physical science of climate change remains fascinating in itself as a matter of pure abstract curiosity. We could wish we only were witnessing a scientific phenomenon as a matter of pure science but with stakes at risk rising in scope and urgency, research focused on mitigation, adaptation and cultural impacts of climate change is burgeoning.

Unlike the study of cosmology or mantle convection, in this broad arena of science we're the central player and can write our script. And— let's not forget— we've previously successfully or at least forthrightly negotiated unintended outcomes of our prowess. For instance after a brief period of unalloyed delight the emergence of automobiles focused attention on outcomes of relatively simple physics producing complicated, painful and expensive effects.  Momentum, inertia, 1/2MV2, human skulls, hard unforgiving objects and nasty, sad permutations of these things inexorably led to research on improvements. It's just so with the climate change we know we're causing— we've identified problems and now we figure out how to fix those problems. We get to shape our future for the better. 

It's not complicated, not in principle. When with our clever brains we unleash forces unaddressed by our anatomy— or the normal functioning of the planet— we survive and thrive by further extension of our intelligence, not by pretending to be stupid and ignorant despite evidence to the contrary.

In short, research "ancillary" to the physical science of climate change is the smartest and arguably best side of our behavior on display, enlightened self-interest at work. 

Another lesson to be drawn from our weekly research synopsis is more centrally germane to the mission of Skeptical Science. As inquiry extends from physical principles of climate change and workers in other domains inevitably assess conditions in the light of new information we find ever more confirmation of what the physical science of climate change tells us is to be expected. This week's biology section is rife with examples. The intellectual bankruptcy of denial of anthropogenic climate change is becoming ever more obvious as the acuity and breadth of our accountancy improves. 

Physical science of anthropogenic climate change
Freshwater requirements of large-scale bioenergy plantations for limiting global warming to 1.5 °C

Contrasting responses in dissolved organic carbon to extreme climate events from adjacent boreal landscapes in Northern Sweden

Estimating power plant CO 2 emission using OCO-2 XCO 2 and high resolution WRF-Chem simulations

A 40-y record reveals gradual Antarctic sea ice increases followed by decreases at rates far exceeding the rates seen in the Arctic 

Enhanced flood risk with 1.5 °C global warming in the Ganges–Brahmaputra–Meghna basin

Changes in the thickness and circulation of multiyear ice in the Beaufort Gyre determined from pseudo?Lagrangian methods from 2003?2015

Turbulence Observations beneath Larsen C Ice Shelf, Antarctica

Extratropical Cyclone Clouds in the GFDL climate model: diagnosing biases and the associated causes

The relevance of mid-Holocene Arctic warming to the future

Towards monitoring localized CO2 emissions from space: co-located regional CO2 and NO2 enhancements observed by the OCO-2 and S5P satellites

Research on how to cope with the anthropogenic climate mess we're making

Spatio-temporal trend in heat waves over India and its impact assessment on wheat crop

Evolution of Mediterranean extreme dry spells during the wet season under climate change

Mid-century emission pathways in Japan associated with the global 2 °C goal: national and globalmodels’ assessments based on carbon budgets

Assessing the degree of hydrologic stress due to climate change

Evaluating sea-level rise vulnerability assessments in the USA

The salience of climate change in farmer decision-making within smallholder semi-arid agroecosystems

Diversity in collaboration: Networks in urban climate change governance

Detection of a climate change signal in extreme heat, heat stress and cold in Europe from observations

Assessing the impact of sea level rise on port operability using LiDAR-derived digital elevation models

Principles and considerations for mainstreaming climate change risk into national social protection frameworks in developing countries

Economic integration and CO2 emissions: evidence from emerging economies

Passive survivability of buildings under changing urban climates across eight US cities

Sustainable urban planning strategies for mitigating climate change in Saudi Arabia

Co-benefits of China’s climate policy for air quality and human health in China and transboundary regions in 2030

Nationalizing a global phenomenon: A study of how the press in 45 countries and territories portrays climate change

Role of market agents in mitigating the climate change effects on food economy

Shocks, states, and societal corporatism: a shorter path to sustainability?

Global mitigation potential of carbon stored in harvested wood products

Community as an equal partner for region-based climate change vulnerability, risk, and resilience assessments

Coal and climate change

Responsibility for climate change adaptation

Largely underestimated carbon emission from land use and land cover change in the conterminous US

Effects of climate and land?use change scenarios on fire probability during the 21st century in the Brazilian Amazon

Biology and anthropogenic climate change

Estimating aboveground net biomass change for tropical and subtropical forests: refinement of IPCC default rates using forest plot data

Climate change alters elevational phenology patterns of the European spruce bark beetle (Ips typographus)

Post?industrial late summer warming recorded in tree?ring density in the eastern Tibetan Plateau

Climate change increases the potential for extreme wildfires

Observed impacts of anthropogenic climate change on wildfire in California

Tree?ring reconstructions of stemwood biomass indicate increases in the growth rate of black spruce trees across boreal forests of Canada

Nonlinear increases in extreme temperatures paradoxically dampen increases in extreme humid-heat

Arctic climate shifts drive rapid ecosystem responses across the West Greenland landscape

Spatiotemporal differences in the climatic growing season in the Qinling Mountains of China under the influence of global warming from 1964 to 2015


The previous edition of Skeptical Science new climate research may be found here. 

Posted by SkS-Team on Tuesday, 23 July, 2019

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