| We used to think that elephants undertook seasonal
long distances migrations between their wet season and dry season
feeding grounds. So to test this we radio tracked 18 elephants with
VHF collars in Sri Lanka. None of them migrated!
Previously, based on the idea that elephants migrated, elephant
conservation plans were designed to limit elephants to protected
areas (their presumed wet or dry season feeding grounds) and linking
them with long narrow corridors - so that they could move between
them. However, we also found that the home ranges (the area an animal
needs to move about in to fulfill its resource requirements such
as food, water, mates etc.) of many elephants had no relation to
protected areas - they ranged completely outside protected areas.
Other elephants used both protected areas and areas outside, while
yet others ranged entirely inside protected areas.
While many animals used different parts of their home ranges seasonally,
in no instances were these areas a significant distance from each
other, requiring them to migrate long distances. The home ranges
were generally 50-150 km2 . So what this says is that elephants
in Sri Lanka are able to find their resource requirements within
a very small area, throughout the year.
With VHF collars, the transmitter on the elephant emits a signal
continuously, which sounds like "beep -beep-beep". We use a directional
antenna - much like your TV antenna to locate it. When the antenna
is pointed in the direction the elephant is in, the signal is obtained
very clearly. When it is pointed away, the signal becomes faint
or inaudible. By using this method we can basically walk up to the
elephant. This type of tracking is called 'homing in'.
However, this works only if you are already within range of the
elephant - the transmitters have a range of 3-4 km, which decreases
even more if the elephant is in thick scrub forest. Now if we don't
have any idea where the elephant is within to around 3 km, then
we have to find it! For that we use a method called triangulation.
Although the signal gets weak quickly when it travels through the
forest, once it comes out of the forest canopy, it can be detected
10-15 km away. It is just like your TV signal - if you set up an
antenna at ground level among trees, you get a weak signal, if you
raise it above the trees the signal gets stronger.
So what we do is climb a high rock or mountain in the region the
elephant is in, and scan for the signal. Once we find the signal,
we figure out the direction of the signal from that point, mark
the location on a map and draw a line from that point in the direction
of the signal. Then we move to another mountain or rock some distance
away and repeat it. Then where the lines cross will be where the
elephant is. However, it is easy to make mistakes in figuring out
the exact direction the elephant is. If it is very far away, an
error of a degree or two will mean many km difference. So we do
this process from a minimum of three locations, which gives us an
'error triangle', where the elephant should be located. If the triangle
is approximately more than 1 km2 we repeat the process till we get
a smaller triangle. This process is called triangulation. Once we
detect the location the elephant is in through this manner, then
we can go closer to the place and 'home in' if we want to.
This sort of tracking using VHF collars is very labor intensive.
If we track around 5 animals, it generally takes a full day to find
each animal. So in a month, we get only 4-5 data points for each
animal. This sort of data is fine to answer questions such as, do
elephants migrate and how big are their annual home ranges. However,
it is insufficient to answer questions such as, what are the micro
habitats elephant use most? Are there differences in movement patterns
between night and day? How important is water availability etc.
So to answer such questions which require detailed knowledge of
the habitats and resources elephants use, we are now using a different
system that incorporates GPS or Global Positioning System technology.
Read more about
tracking elephants with
GPS
Collaborators
Department of Wildlife Conservation, Sri Lanka
www.dwlc.lk
Literature
Fernando P, Wikramanayake ED, Janaka HK, Jayasinghe LKA, Gunawardena
M, Kotagama SW, Weerakoon D & Pastorini J (2008) Ranging behavior
of the Asian elephant in Sri Lanka. Mammalian Biology 73:2-13.
Fernando P & Lande R (2000) Molecular genetic and behavioral
analyses of social organization in the Asian elephant. Behavioral
Ecology and Sociobiology 48:84-91.
|
Elephant with an old VHF collar
Pruthu and Janaka homing in on an elephant
Using a compass to get the direction of the signal
Marking the location on a map |
