Rising Waters on the West Coast
Narration: Ben Hamlington
Transcript:
1
00:00:01,060 --> 00:00:05,060
2
00:00:05,060 --> 00:00:09,060
From about 1993 to 2010,
3
00:00:09,060 --> 00:00:13,060
off the West Coast of the United States, we've seen about zero sea level rise or even negative sea level rise,
4
00:00:13,060 --> 00:00:17,060
so sea level was falling during that time period,
5
00:00:17,060 --> 00:00:21,060
but since about 2010, 2011, we've seen this really rapid increase
6
00:00:21,060 --> 00:00:25,060
in sea level off the U.S. West Coast.
7
00:00:25,060 --> 00:00:29,060
We’re seeing this recovery back towards the global mean,
8
00:00:29,060 --> 00:00:33,060
and if this continues to increase, then you would expect to start to see sea level impacts
9
00:00:33,060 --> 00:00:37,060
associated with this increase, increased coastal erosion,
10
00:00:37,060 --> 00:00:41,060
increased high-tide flooding, these kinds of things as sea level continues to increase.
11
00:00:41,060 --> 00:00:45,060
Sea level rise is caused by climate change.
12
00:00:45,060 --> 00:00:49,060
So there's a number of things happening. One is there's this background increase in sea level associated
13
00:00:49,060 --> 00:00:53,060
with global warming, so thermal expansion and the melting of ice, which is
14
00:00:53,060 --> 00:00:57,060
impacting sea level along the West Coast. That's causing this long-term increase.
15
00:00:57,060 --> 00:01:01,060
Natural Climate Cycles
16
00:01:01,060 --> 00:01:05,060
But on top of that increase, there’s this oscillation that occurs. Actually a number of oscillations.
17
00:01:05,060 --> 00:01:09,060
So the Pacific Decadal Oscillation is one of those. The El Nino-Southern
18
00:01:09,060 --> 00:01:13,060
Oscillation is another. The Pacific Decadal Oscillation is
19
00:01:13,060 --> 00:01:17,060
a large-scale climate signal centered in the Pacific Ocean. Every 10 years,
20
00:01:17,060 --> 00:01:21,060
we see this shift in the sea level between what we see in the Western Pacific
21
00:01:21,060 --> 00:01:25,060
and what we see in the Eastern Pacific. And these oscillations suppress
22
00:01:25,060 --> 00:01:29,060
or elevate sea level over different time periods, and really either exacerbate
23
00:01:29,060 --> 00:01:33,060
or diminish the effects of that long-term sea level.
24
00:01:33,060 --> 00:01:37,060
Since about 2010, 2011, we’ve been seeing this
25
00:01:37,060 --> 00:01:41,060
shift in that decadal variability associated with the Pacific Decadal Oscillation,
26
00:01:41,060 --> 00:01:45,060
and what that’s doing is casing sea level along the West Coast of the U.S.
27
00:01:45,060 --> 00:01:49,060
to go up.
Since 2015, sea level has risen on the West Coast bu almost one centimeter per year
28
00:01:49,060 --> 00:01:53,060
29
00:01:53,060 --> 00:01:57,060
The global average is 3.3 millimeters.
30
00:01:57,060 --> 00:02:01,060
So really high rates of sea level, causing sea level to shift very dramatically, and this increase that we’ve been seeing
31
00:02:01,060 --> 00:02:05,060
in the satellite records, and also in some of the tide gauge records along the U.S. coast,
32
00:02:05,060 --> 00:02:09,060
as well.
Why It Matters
33
00:02:09,060 --> 00:02:13,060
Trying to get a clear understanding of how sea level’s going to change and how it’s going to change, I think,
34
00:02:13,060 --> 00:02:17,060
is really important so we can inform people and they can make good decisions for their future
35
00:02:17,060 --> 00:02:21,060
and we can start to adapt and adjust our way of living
36
00:02:21,060 --> 00:02:27,714
in order to account for these effects that are going to occur in the future.