Summer Series #1: The year's top science findings
A year is a short time in science but a lot happened in 2016. NIWA highlights its top scientific endeavours of the past
12 months and reveals we know a lot more about a whole range of things than we did this time last year.
MARCH
Scientists pinpointed agriculture as the most likely reason for rising methane levels in the atmosphere. Research, led
by NIWA atmospheric scientist Dr Hinrich Schaefer, ruled out fossil fuel production as the major cause.
The amount of methane in the earth’s atmosphere is estimated to have increased by about 150 per cent since 1750. A
plateau was observed between 1999 and 2006 but it then began to rise again.
Data indicated the source of the increase was methane produced by bacteria, of which the most likely sources were rice
paddies and livestock. It was already known that the methane originated from regions in South East Asia, China and India
which are dominated by rice production and agriculture.
Methane is an important gas to deal with when it comes to mitigating climate change.
JUNE
Since 1972 NIWA has operated a Clean Air Monitoring Station at Baring Head, near Wellington. The data collected there
make significant contribution to the global understanding of greenhouse gases. In June, Baring Head’s carbon dioxide
readings officially passed 400 parts per million (ppm), a level last reached more than three million years ago.
Globally, the 400ppm threshold represents an atmospheric landmark as a focus for the urgency to tackle climate change.
The Baring Head reading was particularly significant because most emissions occur in the Northern Hemisphere and the air
arriving here originates far to the south, away from human activities.
Carbon dioxide is the primary greenhouse gas contributing to warming of the atmosphere and reducing levels to below
400pm would take many years of emissions reduction.
AUGUST
The remarkable long-distance swimming abilities of penguins were revealed after NIWA scientists tracked 100 birds over
winter in the Southern Ocean. No one had previously known where the sub-Antarctic rockhopper and Snares penguins went
while they were at sea between April and December each year.
It turned out that the penguins travelled more than 15,000km in six months. Campbell Island was once the world’s largest
breeding colony of rockhoppers,but between 1942 and 1984 the population dropped by about 94 per cent.
Scientists have speculated the decline may be due to a change in the penguins’ diet and believe something is going on in
the ocean over winter that is causing it.
OCTOBER
In October, NIWA began a project to find out what lies beneath the waters of the Marlborough Sounds using cutting-edge
multi-beam technology which emits a fan of sound beams. In this way NIWA collects a snapshot of the extent and
distribution of different habitats on the seafloor.
Other technology can also determine the roughness of the seafloor, the amount and size of sediment while data recorded
in the water column can used to determine habitats, identify seeps and plumes, detect fish schools and other features.
It’s been 70 years since the last survey was done of the Sounds – an area that makes up about 20 per cent of the New
Zealand coastline. New features are being revealed that may provide new research ventures for marine science, as well as
providing a base for assessing the effects of economic activity. The information will also be used to draw new nautical
charts.
NOVEMBER
Several of NIWA’s marine geologists were aboard research vessel Tangaroa researching the Hikurangi subduction zone off
the North Island’s East Coast when the mW 7.8 earthquake struck on November 14.
Given the expertise on board, and the need to find out how the earthquake had changed the seabed offshore, the vessel
was diverted south.
Scientists aboard took coring samples and mapped the seabed along the Marlborough coast south to Kaikoura.
They discovered new scarps, or breaks, confirming the rupture of the Needles Fault, which is the offshore extension of
the Kekrengu Fault. This fault rupture is now believed to extend for about 70km – 36km on land and 34km under the sea.
DECEMBER
After months of collecting and analysing weather data, NIWA climate scientists were well aware that 2016 was tracking to
be the hottest year on record for New Zealand. Summer 2015/16 was particularly warm and then autumn set some new
temperature records making it the second warmest autumn on record.
Winter followed suit, with a balmy June and July with temperatures above average. It turned out that August ended up
being the only month cooler than average month this year.
The previous record was set in 1998 but what NIWA scientists say is that the figures are in line with global average
temperatures and confirm the longer-term trends of climate change.
Globally, 2016 is also set to be the hottest year on record by a significant margin. It will also mean a new high set
for the planet for the third year in a row.
ends