Te Papa's Blog

Te Papa’s curator of terrestrial vertebrates Dr Colin Miskelly tells the 12th, and probably final, instalment of the story of the emperor penguin that went where none had gone before. Previous blogs on the penguin were posted between 23 June 2011 and 24 April 2012.

For those of you interested in seeing the official account of the emperor penguin’s discovery, care, release and post-release monitoring, the following paper was published in the December 2012 issue of Notornis (the journal of the Ornithological Society of New Zealand):

Miskelly, C.M.; Simpson, P.M.; Argilla, L.S.; Cockrem, J.F. 2012. Discovery, care, and post-release monitoring of a vagrant emperor penguin (Aptenodytes forsteri). Notornis 59 (3&4): 116-122.

Abstract We report on the discovery, care, release, and post-release monitoring of the 2nd vagrant emperor penguin (Aptenodytes forsteri) recorded from New Zealand. An immature male emperor penguin came ashore at Peka Peka Beach (40° 50’ S) 56 km north-east of Wellington on 20 Jun 2011. Its condition deteriorated over the following 4 days, and it was taken into care at Wellington Zoo on 24 Jun. Following 72 days of rehabilitation, the bird was released at sea at 51° 42’ S, 78 km north of subantarctic Campbell I, on 4 Sep 2011. He was tracked, via satellite transmitter, moving south-east for 113 km until 9 Sep, after which no further signals were received. The arrival, care and release of this penguin attracted unprecedented levels of public and media interest for a vagrant bird to New Zealand.

The paper is accessible online to members of the Ornithological Society of New Zealand at http://notornis.osnz.org.nz/publications, and will be freely available to all 12 months after publication.

Previous blogs on this topic:

The global penguin – Part 1. How a lone emperor ventured into superstardom

The global penguin – Part 2. The young emperor penguin pushes the boundaries and is taken into care

The global penguin – Part 3. No latitude for error: a young emperor penguin a long way from home

The global penguin – Part 4. How to track a wandering emperor penguin

The global penguin – Part 5. The rocky road to fame

The global penguin – Part 6. Hitching a ride south

The global penguin – Part 7. The wandering emperor penguin enters the technological age

The global penguin – Part 8. Free at last!

The global penguin – Part 9. Heading home, or heading east?

The global penguin – Part 10. It’s only a game

The global penguin – Part 11. How old was the Peka Peka emperor penguin?

Te Papa’s curator of terrestrial vertebrates Dr Colin Miskelly tells the tenth instalment of the unfolding story of the emperor penguin that went where none had gone before. Previous blogs on the penguin were posted between 23 June and 8 September.

Israel Dagg scores the opening try at the 2011 Rugby World Cup. Photo : Reuters

One story has dominated New Zealand media since Friday 9 September 2011. The opening of the 7th Rugby World Cup. A spectacular opening ceremony at Eden Park was followed by the top-ranked All Blacks’ clash with Tonga. Endless column-inches and air-time were filled with discussion of whether tyro Israel Dagg had done enough with his 2-try haul to displace veteran fullback Mils Muliaina, whether captain Richie McCaw has lost his mojo, and the truly big question of whether the All Blacks (the most successful international sports team in world history) can win back the William Webb Ellis trophy that they last held following the inaugural 1987 tournament.

Not surprisingly, the national media have paid no attention in the one ongoing New Zealand story that is the focus of international interest: a missing penguin.

Blog #9 “Heading home, or heading east?” described the south-easterly track that the penguin took for the first 4 days after his release, from 4 September to the (NZ time) morning of 8 September. For the next 24 hours he continued on an easterly track. And then nothing. The last signal was received at 20:11:51 UTC on 8 September (about 8:12 am on 9 September, NZ Standard Time).

The emperor penguin's path from release on 4 September until transmissions ceased on 9 September. Map supplied by Sirtrack

There are a multitude of reasons why the signal from the transmitter could fail to appear on our screens, and most of them have been mentioned in comments on the previous blog or in tweets on the Sirtrack NZEmperor website. These range from the transmitter no longer sending a signal (transmitter failure or damage), to signals not being received by the satellite (e.g. due to the penguin diving, or the transmitter falling off and sinking, or the transmitter being inside a larger predator), to not enough signals being received (4 or more signals are required per satellite pass for a plotable fix), through to technical failures at the satellite or terrestrial receiving station, or in the software used to filter and map the locations.

For a while, it appeared that an extra-terrestrial higher authority was responsible for the lack of signals. Intense solar flare activity since 9 September played havoc with satellite communications, leading to widespread speculation that this was blocking transmission of the transmitter signals. But sadly no; data from other satellite transmitters have been received by Sirtrack without any apparent problems. The lack of even a single satellite message since last Friday indicates that the transmitter has not broken the surface of the sea at all since then.

The last data download received from the KiwiSat 202 satellite transmitter glued to the emperor penguin's back. Data funded by Gareth Morgan KiwiSaver and provided by Sirtrack

It is unlikely that we will ever know what caused the transmissions to cease, but it is time to harden up to the reality that the penguin has returned to the anonymity from which he emerged on 20 June. The Sirtrack team will keep trying to recover a signal, and we will post an update if they succeed. And maybe, just maybe, he will surprise us all by turning up at a monitored emperor penguin colony, where the transponder inserted under the skin on his thigh will remind us all that once upon a time, a long time ago, he was more than just another penguin.

Previous blogs on this topic:

The global penguin – Part 1. How a lone emperor ventured into superstardom

The global penguin – Part 2. The young emperor penguin pushes the boundaries and is taken into care

The global penguin – Part 3. No latitude for error: a young emperor penguin a long way from home

The global penguin – Part 4. How to track a wandering emperor penguin

The global penguin – Part 5. The rocky road to fame

The global penguin – Part 6. Hitching a ride south

The global penguin – Part 7. The wandering emperor penguin enters the technological age

The global penguin – Part 8. Free at last!

The global penguin – Part 9. Heading home, or heading east?

For later blogs on this bird:

The global penguin – Part 11. How old was the Peka Peka emperor penguin?

The global penguin – Part 12. The final word?

Te Papa’s curator of terrestrial vertebrates Dr Colin Miskelly tells the fourth part of the unfolding story of the emperor penguin that went where none had gone before (at least in the age of digital media). Colin accompanied Department of Conservation staff to Peka Peka Beach on the morning of 21 June, and identified the bird just before the first journalists and media photographers arrived. He is also a member of the committee advising on the care and rehabilitation of the bird, and told the first three parts of its story in Te Papa blogs posted on 23 June, 29 June and 6 July.

Fig. 1 The emperor penguin on Peka Peka Beach, 21 June 2011. Photo: Richard Gill, DOC

The Peka Peka emperor penguin has been under veterinary care at Wellington Zoo for over two weeks now, and most of the sand is out of his system. He is eating about 2 kg of donated salmon a day, and will be converting some of this into a layer of fat lying just under his skin. This is where penguins store fat to tide them over their long periods of fasting while ashore, for example while incubating, or during their annual moult.

Maintaining a thick fat layer while at sea is also important. Not only does it provide insulation against cold water, it improves hydrodynamic streamlining, and is an insurance against poor foraging conditions.

The emperor penguin was in surprisingly good condition when he stepped ashore. Many vagrant birds that stray beyond their typical range and habitats find it difficult to find food, and become emaciated. When he arrived, the Peka Peka penguin was towards the lower end of a healthy adult weight, but he apparently lost further weight and condition before he was delivered to Wellington Zoo 4 days later.

It is intended to build his weight up by several kilos before release, to improve his chances of surviving any patches of low food availability on his (hoped for) swim south. As mentioned in a previous blog, adult male emperor penguins go without food for up to four months at the start of the breeding season, dropping from an average of 38 kg to 23 kg in the progress. Young emperor penguins (like the Peka Peka bird) do not get anywhere near so big, as they do not need to endure such long fasts while at sea. Most subadults weigh between 25 and 30 kg.

Fig. 2 A healthy adult emperor penguin, Terre Adélie, Antarctica. Photo: Dominique Filippi

There will be great interest in tracking the penguin’s location and direction of movement after release, and we have the technology to do just that. A New Zealand technology company Sirtrack has built and donated a satellite transmitter that will be glued to feathers on the penguin’s lower back. The device is 87 mm long, streamlined, and weighs only 95 grams (about 0.4 % of the bird’s current weight). Similar (and in some cases, identical) devices have been used previously to track adult and juvenile emperor penguins from the Antarctic continent. As reported in previous blogs, this has shown that young emperor penguins swim into the Southern Ocean more than 1000 km north of the pack-ice that surrounds Antarctica. The release of the Peka Peka penguin will be the first time that a satellite transmitter has been attached to an emperor penguin released at sea.

Fig. 3 Sirtrack satellite transmitter model K2G 271A ready to be attached. Image: Sirtrack

The transmitter has been registered with the Argos satellite system, and given a unique identifier code. Argos satellites are positioned about 850 km above the earth’s surface, and orbit the planet on a pole-to-pole orbit about every 100 minutes. As a satellite passes overhead, it picks up signals from transmitters within a swath about 5000 km wide. Due to rotation of the earth, the swath moves westwards with each pass, with successive swaths overlapping about 44% at the equator (and 100% at the poles).

Fig. 4 Swath width of an Argos satellite. Image from Argos Users Manual, http://www.argos-system.org

The transmitter has been programmed to transmit a signal (or ‘ping’) every 45 seconds during two time periods each day (6 – 9 am and 8 pm – midnight) matching peak periods of satellite passes in the seas south of New Zealand. Whether or not a signal is picked up from the penguin will depend on whether the bird is floating or swimming at the sea surface during the approximately 10 minutes that it takes the satellite to pass overhead. The satellite must detect at least four pings per pass to get an accurate fix. It will not detect a signal when the penguin is foraging (deep diving), and is unlikely to do so when the penguin is swimming rapidly, and surfacing briefly for quick breaths. There is no guarantee that enough of the signals will get picked up on every pass of the satellite, and so there are likely to be days when no locations are detected.

The Argos system calculates locations by measuring the frequency of the signal; the received frequency changes as the satellite moves in relation to the transmitter (Doppler effect). The data are transmitted to a ground station, and then posted to a website accessible via a password.

One of the benefits of the Argos system is that requires only a single satellite to get a fix on the transmitter, unlike the three or more satellites required for GPS triangulation. A downside is that the satellite cannot determine if the transmitter is to its left or right, and gives two ‘mirror’ fixes to either side of its path. As penguins are capable of swimming only tens of kilometres per day, it should be obvious which of the two fixes is the correct one.

Fig. 5 Diagram showing how an Argos satellite records two ‘mirror’ locations for each transmitter, based on the frequencies of signals received. Image from Argos Users Manual, http://www.argos-system.org

This is a commercial system: users have to register their transmitters to receive a password, and pay a daily or monthly fee to receive the transmitted data. We are fortunate that Gareth Morgan KiwiSaver has agreed to sponsor the data downloads. Sirtrack will prepare maps of the penguin’s location and its movement track, and these will be posted on both the Sirtrack and Our Far South websites. I will provide precise webpage links in a blog about the time that the penguin is released.

In addition to the satellite tag, the penguin will also have a small microchip (24 mm long) inserted under its skin. This is the same method as used for dogs in New Zealand. This will mean that if the bird ever returns to the New Zealand coast, or arrives at a monitored penguin colony, we will know its identity.

Fig. 6 The microchip likely to be inserted under the penguin’s skin before release. Scale bar in millimetres. Photo: Te Papa

Other websites referred to:

http://www.sirtrack.co.nz/
http://www.argos-system.org
http://www.ourfarsouth.org/

Previous blogs on this topic:

The global penguin – Part 1. How a lone emperor ventured into superstardom

The global penguin – Part 2. The young emperor penguin pushes the boundaries and is taken into care

The global penguin – Part 3. No latitude for error: a young emperor penguin a long way from home

For later blogs on this bird:

The global penguin – Part 5. The rocky road to fame

The global penguin – Part 6. Hitching a ride south

The global penguin – Part 7.  The wandering emperor penguin enters the technological age

The global penguin – Part 8. Free at last!

The global penguin – Part 9. Heading home, or heading east?

The global penguin – Part 10. It’s only a game

The global penguin – Part 11. How old was the Peka Peka emperor penguin?

The global penguin – Part 12. The final word?