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As usual Robertscribbler alternates reporting on climate change with articles with techno fantasy. I shall continue to post the former.
Nature — Plants Belched 3 Billion Tons of Carbon into Atmosphere During Monster El Nino of 2014-2016
14
August, 2017
El
Nino. This periodic warming of the Equatorial Pacific has long been
known to trigger droughts, wildfires, and higher temperatures
throughout the tropics. And, according to a new satellite data based
report out of the scientific journal Nature,
these very same El Nino feedbacks combined with record global heat to
squeeze a massive volume of carbon out of the world’s tropical
forests during 2014-2016. From
the report:
The monster El Niño weather pattern of 2014–16 caused tropical forests to burp up 3 billion tonnes of carbon, according to a new analysis. That’s equivalent to nearly 20% of the emissions produced during the same period by burning fossil fuels and making cement.
Global
Warming + El Nino Sparked Massive Fires, Droughts and Heatwaves in
the Tropics During 2014-2016…
The
monster El Nino of 2014 to 2016 created serious disruptions to the
world’s weather and climate patterns. Emerging during a time when
human-forced global warming was rapidly ramping up, this strong
natural variability feature generated a severe heat spike in the
tropical regions. With the heat near the Equator already at high tide
due to human-caused warming, this very strong El Nino produced some
of the most severe heatwaves, droughts and wildfires ever experienced
during modern times in places like Brazil, Africa, and Southeast
Asia.
(Massive
Southeast Asia wildfires during a record warm El Nino like these in
Borneo during September of 2015 helped to squeeze 3 billion tons of
carbon out of tropical forests. A feedback feature related to El Nino
and human-caused climate change. Image source: Earth
Observatory.)
The
Amazon Rainforest, according to a seperate study, experienced
record-breaking heat and drought —
with the area of drought stretching 20 percent further than during
past El Nino years. Temperatures in the Amazon were 1.5 degrees
Celsius warmer than during the extreme El Nino event of 1997-1998.
Both signals that a climate change + El Nino interaction was
amplifying the severity of impacts to this crucial tropical forest
system.
In
Africa and Southeast Asia, the heat was similarly intense —
producing numerous 30-100 year or worse droughts, fires, and record
high temperatures. Another signal that this harmful interaction was
in full swing.
…
This,
in Turn, Generated a Major Release of Forest-Stored Carbon …
As
the droughts and heatwaves were baking deep, and as the forests were
stunting, burning, or exhaling more CO2, high overhead, one of
Earth’s climate sentinel satellites — the Orbiting Carbon
Observatory 2 — was dutifully taking measurements. And what it
found was that all this extra tropical heat resulted in a severe loss
of soil and vegetative carbon. That the heat and droughts were
sparking forest fires, causing stress, and stunting forest growth.
That these processes were dumping prodigious volumes of carbon back
into the Earth’s atmosphere.
Measurements taken by NASA’s Orbiting Carbon Observatory-2 (OCO-2) satellite, which measures the level of carbon dioxide in the atmosphere, suggest that El Niño boosted emissions in three ways. A combination of high temperatures and drought increased the number and severity of wildfires in southeast Asia, while drought stunted plant growth in the Amazon rainforest, reducing the amount of carbon it absorbed. And in Africa, a combination of warming temperatures and near-normal rainfall increased the rate at which forests exhaled CO2.
Overall,
the Nature study
notes that 3 billion tons of carbon were added to the atmosphere as a
result of harm done to forests and soils during this particularly hot
El Nino period.
…
Which
Helped to Spike Annual Rates of Atmospheric CO2 Accumulation
(Record
rates of atmospheric CO2 accumulation during 2015 and 2016 correspond
with large belches of carbon from tropical forests as a result of
severe heat. Image source: NOAA
ESRL.)
Elsewhere,
this added burst of carbon did not go unnoticed. And measurements
from NOAA’s
Earth Systems Research Laboratory indicates
that rates of atmospheric carbon accumulation sped up as El Nino and
global warming based heat baked the tropical lands. During 2015,
rates of atmospheric carbon accumulation accelerated to their fastest
pace on record — growing at 3.03 parts per million per year. And in
2016, the second fastest rate of atmospheric CO2 accumulation on
record was recorded — 2.98 parts per million per year. This
compares to an average 2.2 parts per million annual accumulation
that’s primarily driven by fossil fuel burning.
So
what we have here is evidence that a heat and El Nino based carbon
feedback occurred in the tropics during 2014-2016 and that this
feedback resulted in a significant spike in the rate of atmospheric
CO2 accumulation even as human based carbon emissions were leveling
off (at record high ranges). With El Nino fading, that tropical
carbon feedback should abate. But we shouldn’t allow ourselves to
breathe too easy. For with Earth now in the range of 1 to 1.25 C
warmer than preindustrial times, carbon stored in soil, forests,
permafrost and oceans is now being placed under increasing heat
related stress. And continuing to burn fossil fuels keeps adding to
the heat gain that further increases the risk of a warmth-amplifying
release from all of these stores.
Links:
Hat
tip to mlparrish
Hat
tip to Spike
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