Scratching the Surface

By Dr. Leigh Torres, Assistant Professor, Oregon State University, Geospatial Ecology of Marine Megafauna Lab

I have been reminded of a lesson I learned long ago: Never turn your back on the sea – it’s always changing.

The blue whales weren’t where they were last time. I wrongly assumed oceanographic patterns would be similar to our last time out in 2014 and that the whales would be in the same area. But the ocean is dynamic – ever changing. I knew this. And I know it better now.

Below (Fig. 1) are two satellite images of sea surface temperature (SST) within the South Taranaki Bight and west coast region of New Zealand that we surveyed in Jan-Feb 2014 and again recently during Jan-Feb 2016. The plot on the left describes ocean surface conditions in 2014 and illustrates how SST primarily ranged between 15 and 18 ⁰C. By comparison, the panel on the right depicts the sea surface conditions we just encountered during the 2016 field season, and a huge difference is apparent: this year SST ranged between 18 and 23 ⁰C, barely overlapping with the 2014 field season conditions.

Figure 1. A comparison of satellite images of sea surface temperature (SST) in the South Taranaki Bight region of New Zealand between late January 2014 and early February 2016. The white circles on each image denote where the majority of blue whales were encountered during each field season.
Figure 1. A comparison of satellite images of sea surface temperature (SST) in the South Taranaki Bight region of New Zealand between late January 2014 and early February 2016. The white circles on each image denote where the majority of blue whales were encountered during each field season.

While whales can live in a wide range of water temperatures, their prey is much pickier. Krill, tiny zooplankton that blue whales seek and devour in large quantities, tend to aggregate in pockets of nutrient-rich, cool water in this region of New Zealand. During the 2014 field season, we encountered most blue whales in an area where SST was about 15 ⁰C (within the white circle in the left panel of Fig. 1). This year, there was no cool water anywhere and we mainly found the whales off the west coast of Kahurangi shoals in about 21 ⁰C water (within the white circle in the right panel of Fig. 1. NB: the cooler water in the Cook Strait in the southeast region of the right panel is a different water mass than preferred by blue whales and does not contain their prey.)

The hot water we found this year across the survey region can likely be attributed, at least in part, to the El Niño conditions that are occurring across the Pacific Ocean currently. El Niño has brought unusually settled conditions to New Zealand this summer, which means relatively few high wind events that normally churn up the ocean and mix the cool, nutrient rich deep water with the hot surface layer water. These are ideal conditions for Kiwi sun-bathers, but the ocean remains highly stratified with a stable layer of hot water on top. However, this stratification does not necessarily mean the ocean is un-productive – it only means that the SST satellite images are virtually useless for helping us to find whales this year.

Although SST data can be informative about ocean conditions, it only reflects what is happening in the thin, top slice of the ocean. Sub-surface conditions can be very different. Ocean conditions during our two survey periods in 2014 and 2016 could be more similar when compared underwater than when viewed from above. This is why sub-surface sensors and data collection is critical to marine studies. Ocean conditions in 2014 and 2016 could both potentially provide good habitat for the whales. In fact, where and when we encountered whales during both 2014 and 2016 we also detected high densities of krill through hydro-acoustics (Fig. 2). However, in 2014 we observed many surface swarms of krill that we rarely saw this recent field season, which could be due to elevated SST. But, we did capture cool drone footage this year of a brief sub-surface foraging event:

An overhead look of a blue whale foraging event as the animal approaches the surface. Note how the distended ventral (throat) grooves of the buccal cavity (mouth) are visible. This is a big gulp of prey (krill) and water. The video was captured using a DJI Phantom 3 drone in the South Taranaki Bight of New Zealand in on February 2, 2016 under a research permit from the New Zealand Department of Conservation (DOC) permit # 45780-MAR issued to Oregon State University.

Figure 2. An echo-sounder image of dense krill patches at 50-80 m depth captured through hydroacoustics in the South Taranaki Bight region of New Zealand.
Figure 2. An echo-sounder image of dense krill patches at 50-80 m depth captured through hydroacoustics in the South Taranaki Bight region of New Zealand.

Below are SST anomaly plots of January 2014 and January 2016 (Fig. 3). These anomaly plots show how different the SST was compared to the long-term average SST across the New Zealand region. As you can see, in 2014 (left panel) SST conditions in our study area were ~1 ⁰C below average, while in 2016 (right panel) SST conditions were ~1 ⁰C above average. So, what are normal conditions? What can we expect next year when we come back to survey again for blue whales across this region? These are challenging questions and illustrate why marine ecology studies like this one must be conducted over many years. One year is just a snap shot in the lifetime of the oceans.

Figure 3. Comparison of sea surface temperature (SST) anomaly plots of the New Zealand region between January 2014 (left) and January 2016 (right). The white box in both plots denotes the general location of our blue whale study region. (Apologies for the different formats of these plots - the underlying data is directly comparable.)
Figure 3. Comparison of sea surface temperature (SST) anomaly plots of the New Zealand region between January 2014 (left) and January 2016 (right). The white box in both plots denotes the general location of our blue whale study region. (Apologies for the different formats of these plots – the underlying data is directly comparable.)

Like all marine megafauna, blue whales move far and fast to adjust their distribution patterns according to ocean conditions. So, I can’t tell you what the ocean will be like in January 2017 or where the whales will be, but as we continue to study this marine ecosystem and its inhabitants our understanding of ocean patterns and whale ecology will improve. With every year of new data we will be able to better predict ocean and blue whale distribution patterns, providing managers with the tools they need to protect our marine environment. For now, we are just beginning to scratch the (sea) surface.

 

 

 

Not Everyday is Gray (just most of them)

As Amanda explains quite nicely in her previous blog post, research is not always glamorous, and we don’t always see the species we’ve come out to the field to study.  However, that doesn’t mean that there aren’t other cool species out there to spot!  Here are some common (and uncommon) visitors to some of our research sites this summer.

Also, if you continue to the bottom, we’ve included some cool videos of (1) gray whale sharking behaviour, (2) Gray whale swimming (top down full body view), and what it looks and sounds like when we’re doing one of our close-in focal follows. Enjoy!

A very unexpected, but very welcome visitor! Spotted off Boiler Bay August 10.
A very unexpected, but very welcome visitor! Blue Whale spotted off Boiler Bay August 10.
Often in pairs, we've started seeing more of these lately as they come back north from the breeding grounds further south.
Often in pairs, we’ve started seeing more of these California sea lions lately as they come back north from the breeding grounds further south.
fluffy crow
A young crow fluffs up in the breeze
Humpback Whale which has been hanging out around Depoe Bay for the past two weeks.  Its split dorsal fin makes it easy to recognize! Notice the darker color than the grays we usually see.
Humpback Whale which has been hanging out around Depoe Bay for the past two weeks. Its split dorsal fin makes it easy to recognize! Notice the darker color than the grays we usually see.
Spotted at Graveyard Point
A Great Egret spotted at Graveyard Point
Long Billed Curlew
A long billed curlew drops by for a visit
This chick waits patiently for parents to bring a meal
This chick waits patiently for parents to bring a meal
We see the Osprey mutliple times a day in Port Orford as there are a couple of nesting pairs with chicks to feed.
We see the Osprey multiple times a day in Port Orford as there are a couple of nesting pairs with chicks to feed.
Our Oystercatchers at Boiler Bay have also successfully fledged a pair of chicks while we've been watching!
Our Oystercatchers at Boiler Bay have also successfully fledged a pair of chicks while we’ve been watching!
Pelicans
Brown Pelicans
There are at least two pairs of Peregrines with chicks in Port Orford as well.  This one brings home a catch! (possibly murre or guillemot chick?)
There are at least two pairs of Peregrines with chicks in Port Orford as well. This one brings home a catch! (possibly murre or guillemot chick?)
Peregrine
Peregrine Falcon
Pigeon Guillemots
Pigeon Guillemots at Port Orford

 

If you remember a few weeks ago, we shared photos of gray whale “sharking” behaviour.  Well, now we have video!  Enjoy:

Here’s what it looks like from the top of Graveyard Bluff when a whale swims by below us!

We get really excited by this behavior because its positive proof that the whales are successfully foraging!

and here is a fluke!

We’ll be back soon with more updates from Port Orford.

Fair winds,

Florence & the rest of Team Ro”buff”stus