A gift from me to you!

What was that all about? 

Editor’s Note: This is the sixth in a six-part series

Here are 5 things to help you make sense of it all. Who wouldn’t want that? 

1.Birds suffer from their own version of malaria and it is spread around the world.

2.Since the accidental introduction of the common house mosquito in Hawaii (1826), many native bird populations have become threatened to extinction by avian malaria caused by P. relictum. The rapid loss of native island floras and faunas is a huge cause for concern among scientists.

3.We expect avian populations worldwide to be under increasing threat from this disease due to climate change, particularly in tropical areas.

4.Warmer temperatures have forced honeycreepers to breed in higher elevations where food and cover may be scarce.

5. It is quite likely that threatened bird species will be “squeezed between expanding disease transmission from lower elevations and the upper limits of suitable forest habitat“ due to predicted rises in global temperature over the next century. Pete Marra, director of the Smithsonian Institution’s Migratory Bird Center, warns that “we have five, 10, maybe 15 years before we start seeing more declines…but some of these species don’t have that much time and I don’t want to see another species become extinct in my lifetime”.

And this begins to explain part of the conversation I had this week with Ben Roberts at Tree Ramblings, a young ecologist at the University of Aberystwyth who has studied avian ecology and climate change. I asked him whether the recent success story of human malaria was a sign of good things to come. With humans, it’s easy to get funding for research. But birds are far more difficult. Many birds are very important ecologically, Roberts notes, they obviously are often important predators in ecosystems, as well as pollinator species. White-backed vultures (Gyps bengalensis) are a very good example of this role. Then to understand why malaria impacts islands such as Hawaii and New Zealand in particular, Roberts took an ecological approach. He emphasized that there are several common drivers of transmission which determines how a landscape will facilitate transmission of disease. Then he identified which human activities and alterations of the environment can significantly influence transmission.

Below is a short 4 minute podcast I conducted with Ben Roberts [8th December 2014]. I wish to thank Ben Roberts whose effort and time made this post possible.

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Keeping Cool — Gauging the Effects of Climate Change on Honeycreepers

Editor’s Note: This is the fifth in a six-part series

AT HIGH altitude, relatively few malaria-bearing mosquitoes are able to survive in the cool air — but with predicted temperature changes, the insects can expand their range, adding new pressures to the island’s disease-susceptible bird populations. 

Native forest birds in the Hawaiian Islands have adapted to life at higher elevations over the past 30 years. With no natural protection against diseases such as avian malaria (Plasmodium spp.), susceptible birds are provided with ‘disease-free’ strongholds at higher elevations where the temperatures have historically been too low for the survival of the malaria parasite and the disease-carrying mosquitoes which like warm and wet conditions. Put in other words, how cold it is limits the distribution and population sizes of malaria-carrying mosquitoes, and thus of many Hawaiian birds.

In Hawaii, more than 20 forest bird species live on cool, high elevation mountains — above 4000 ft — such as Puu kukui (shown above) where mosquitoes don’t thrive. However, a warmer climate is enabling these diseases to spread, as malaria-bearing mosquitoes are no longer being killed by prolonged winter cold.

Given the threat of climate change, these mosquitoes will likely creep up the volcanoes, bringing their parasitic passengers along for the ride. So as malaria rises up slope, the amount of disease-free refuge will shrink. And of course, this would have a devastating effect on populations of honeycreeper, and other native forest birds as well.

“Without question, the one factor that prevented widespread and rapid extinction of virtually all of Hawaii’s native honeycreepers after the introduction of avian malaria was the presence of high-altitude disease refuges on Kauai, Maui and Hawaii,”

Dr. Carter Atkinson, a U.S. Geological Survey (USGS) microbiologist based at the USGS Pacific Islands Ecosystems Research Center in Hawaii.

High elevation areas have served as "refugia" on Kauai, Maui and Hawaii, sustaining forest bird populations.

High elevation areas have served as “refugia” on Kauai, Maui and Hawaii, sustaining forest bird populations. Ten years ago, you could practically count on one hand the number of native birds infected with malaria at 1900m on the island of Hawaii. Nowadays you couldn’t, unless you had more than double the amount of fingers.

And when it comes to funding and planning, there isn’t enough, both in Hawaii and the rest of the world, despite our general awareness of the potentially devastating effects of malaria on susceptible species. Atkinson says that when it comes to general funding for conservation of endangered forest birds, that it “needs to be increased by orders of magnitude if we are to avert a biological disaster in our lifetimes”.

Nobody denies that recent global efforts have made enormous progress in saving human lives, or that today’s avian extinction rate far exceeds that of just two decades ago.  Yet, the issues that face birds globally are largely being ignored, says George Fenwick, president of the American Bird Conservancy. And that’s not a good sign.  After all, most studies seem to show that malaria has been largely responsible for the recent wave of extinctions and endangerment among Hawaiian forest birds.

Many native Hawaiian birds that are considered “endangered” have already proven to be highly susceptible to disease in the wild. Nowadays, if you want to see a live honeycreeper you have to go to the tops of mountains, no less than 1500m (4920ft). There are exceptions – like the Hawaii Amakihi Hemignathus virens that still remains widely dispersed – but usually the birds only persist where temperatures prevent effective malaria development in mosquitoes. But at high altitudes, Atkinson maintains that it is quite likely that threatened bird species will be “squeezed between expanding disease transmission from lower elevations and the upper limits of suitable forest habitat“ due to a predicted rise in global temperature over the next  century.

kaui-flights_1

Many native bird species on islands, such as Kauai, are highly impacted by avian malaria. Over time, avian malaria has forced most of these species to breed in high elevation refugia where food and cover may be scarce. Refugia or “safe havens” are areas where natural environmental conditions have remained relatively constant or stable during times of great environmental change.

Alas, as tempting as it maybe to write a comprehensive list on climate change and the altitudinal range of avian malaria in the Hawaiian Islands, this was not meant to be one. Plenty of those exist though. So for now, aside from what information is here, your best bet might be to check this 2014 publication out for more detailed information or look at this USGS update for some interesting facts and figures!

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Hawaiian honeycreepers are in Peril-Why the native forest birds may become extinct.

Editor’s Note: This is the fourth in a six-part series.

HAWAII-It is considered the “global epicenter of imminent extinctions”  for plants and animals; just since the 1980s, 10 unique birds have disappeared. Among some of the most threatened species are a native group of forest birds known as honeycreepers (Drepanidinae) that have evolved in the absence of avian malaria. 

As you can see (below), these beautiful and fascinating birds have evolved  a remarkable array of distinctive morphologies.

tree

Family Drepanididae (Hawaiian Honeycreepers). *Note* Not all species are shown.

[VIDEO] Are you looking to see what a Purple,Green, Shining, Golden collared or Red-legged honeycreeper looks like?

Hawaii has more extinct birds than anywhere else in the world

Hawaii has more extinct birds than anywhere else in the world

Honeycreepers have suffered catastrophic decline in recent decades due to:

  • Habitat loss
  • Introduction of alien plants and animals
  • Avian disease

The accidental introduction of the southern house mosquito Culex quiquefasciatus– a non-native species –  into Hawaii  (1826) has allowed avian malaria and avian pox to spread, putting 33 species of the 42 remaining birds species in danger of extinction.

Clearly, the rapid loss of native island floras and faunas is a huge cause for concern among scientists.

We have five, 10, maybe 15 years before we start seeing more declines…but some of these species don’t have that much time and I don’t want to see another species become extinct in my lifetime. 

Pete Marra, director of the Smithsonian Institution’s Migratory Bird Center .

hawaii colonise

The introduction of avian malaria (Plasmodium relictum) to the remote Hawaiian Islands is believed to have played a major role in the decline and extinction of several native bird species. Now, less than half of Hawaii’s previously extant species of honeycreeper still exist.

Symptoms include:

*Anemia. The loss of red blood cells leads to a…

*Lack of oxygen and progressive weakness.

*And eventually deathbirds that have never had tolerance to malaria can get it very quickly and die from it. Mortality in many native species can range from 50 to 90%. In contrast, mortality in introduced bird species appears to be negligible.

THE MAUI PARROTBILL (PSEUDONESTOR XANTHOPHRYS) IS ONE OF THE HONEYCREEPERS THAT IS MOST THREATENED.

THE MAUI PARROTBILL (PSEUDONESTOR XANTHOPHRYS) IS HIGHLY SUSCEPTIBLE TO MALARIA AND IS ONE OF THE HONEYCREEPERS THAT IS MOST THREATENED.

Species-differences in susceptibility to disease.

Example:`I`iwi vs`Apapane

The ‘i’iwi (A) is very susceptible to malaria, whereas the ‘apapane (B) less so.

*NOTE*  The differences in disease susceptibility are for reasons yet to be determined

Nature conservancyToday, threatened by habitat destruction, introduced predators and avian diseases, the ‘i‘iwi is extinct on the island of Lāna‘i, and is considered extremely rare and vulnerable to extinction on O‘ahu and Moloka‘i.

Iiwi honeycreeper

A)’I’iwi honeycreeper.  The ‘I’iwi is easily Hawaiis most recognizable forest bird. As well as habitat loss, Hawaii’s massive bird losses are blamed on introduced mosquitoes, which carry diseases like avian malaria.

'Apapane honeycreeper

B) ‘Apapane honeycreeper

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What Causes Avian Malaria?

Editor’s Note: This is the third in a six-part series.

Beautiful and wonderful birds around the world are facing extinction due to avian diseases such as avian malaria. 

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Passerine birds-or perching birds- are the most common victims of avian malaria. But most penguins (non-passerine birds)  are very susceptible to Plasmodium and avian malaria is potentially disastrous for both wild and captive populations.

WHAT CAUSES AVIAN MALARIA

Plasmodium relictum, a protozoan parasite, is the main parasite that causes avian malaria and may be lethal to species which have not evolved resistance to the disease-infecting their red blood cells-or erythrocytes.

Wait, Mark! What are protozoan parasites?

This may sound complicated. But don’t fear! It’s pretty simple.

Most protozoa living in the environment are not harmful-they are what we call a eukaryotic organism but consist of only a single cell and so we need a microscope to be able to see them!

stock-footage-researchers-working-in-lab-with-microscope-close-up

Here’s a shiny looking microscope for ya!

Protozoan parasites, however, cannot live in the open environment on their own like other protozoa.

They’re different…

In fact, they mooch off other organisms (such as birds) to obtain protection and nourishment-cheeky indeed. However, scientists aren’t even sure of the number of protozoan species that induce avian malaria.

Oh, and by the way, the parasite is moved around by infected female mosquitoes-mostly Culex-where the mosquito picks up the parasite when it feeds on the blood of a infected bird, and then it passes the parasite on when it feeds again (on the blood of a non-infected bird).

Consider the Hawaiian Islands-Niihau, Kauai, Oahu, Molokai, Lanai, Kahoolawe, Maui and the Big Island. In this region, the mosquito that transmits the parasite is the common house mosquito, Culex quinquefasciatus.

The Hawaiian Islands

The Hawaiian Islands

Here’s what one of them looks like!

Culex quinquefasciatus

C. quinquefasciatus.  The parasite is picked up when feeding on the blood of an infected bird.

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Where is Avian Malaria Found?

Editor’s Note: This is the second in a six-part series

MALARIA-It’s a tropical disease, right? But scientists have now discovered just how far the disease can be found-and it’s moving north.The reason? Climate change. 

Susceptible birds are now exposed to infection as far north as Alaska,a new study finds. And global warming may push avian malaria even further north by the end of the century!

Photo link:http://www.cruisebrothers.com/alaska-cruise-image.htm. ALASKA. Whoa. I'd like to say that I'm not keen on human malaria spreading this far... Alaska. Photo link:http://www.cruisebrothers.com/alaska-cruise-image.htm

ALASKA. Whoa. I’d like to say that I’m not keen on human malaria spreading this far…
(Taken from the Cruise Brothers, URL: <http://www.cruisebrothers.com/images/Destinations/Alaska.jpg&gt;) [November 20th].

The parasite really is found around the world. Plasmodium relictum, for instance, has been reported to occur in all continents except Antarctica.

You know, island populations tend to be particularly susceptible to avian malaria. But why?

1) Partly that’s because bird populations tend to be numerically small and often comprise fewer populations thanks to the restricted land area.

2)They must also adapt to and survive within a more limited range of habitats.

3)Then, the effects of introduced parasites, pathogens, predators etc. have been described as  “geometrically greater on small land areas than larger ones

Meanwhile the parasites have caused havoc on island populations such as Hawaii, New Zealand, Samoa, and the Galapagos islands.

The native Hawaiian bird populations suffer most: some 50 to 90 percent of Plasmodium infections are fatal in adult birds. In fact, scientists have described this region of the world as “the global epicenter for imminent extinctions“.

Look at post 3 for the causes of avian malaria. See post 5 for more on climate change…

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What is Avian Malaria?

Editor’s Note: This is the first in a six-part series

You know that malaria is deadly. But did you know that birds suffer from their own version of the disease? Here are 8 things that everyone needs to know!

Passerines are birds that, like the Red Fody, have a unique foothold that enables them to sit on a perch.

Passerines are birds that, like the Red Fody, have a unique foothold that enables them to sit on a perch. ( Taken from Bahrain bird report (2008), URL: http://www.hawar-islands.com/blog/bugs_stub.php?cat=213)%5B10th November 2014].

  1. It’s a common infectious disease found in wild birds.
  2. The disease mainly affects so-called passerine birds-this includes more than half of all bird species! These birds have three toes pointing forward, and one back like this one above…
  3. Avian malaria is caused by single-celled parasites-Plasmodiumand is spread through the bites of other parasites-mosquitoes (see more in post 3).

Avian malaria has contributed to the extinction of at least 10 native bird species in Hawaii, and threatens many more.

HAWAIIAN HONEYCREEPER (a native forest bird). Avian malaria has contributed to the extinction of at least 10 native bird species in Hawaii, and threatens many more.  Taken from Utah birds (2013), URL: http://www.utahbirds.org/PicOfMonth/Iiwi.htm) [14th November 2014].

4.The disease continues to play a significant role in the decline and extinction of highly susceptible populations i.e. native Hawaiian forest birds (see above).

5. The incidence of this disease has nearly tripled in the last 70 years around the world.

6. Now reports are saying Britain’s birds are suffering from the disease! In fact, there’s actually a good chance that birds visiting your bird feeder are carrying the disease. Yikes! But let me stop the exaggeration. Check out Avian malaria in Europe (pp.69) to find out why the impact of malaria on endemic avian wildlife will be less over here!

7. It does not always appear to affect birds as drastically as the human version affects us. While many birds that carry avian malaria become weak and may eventually die, some individuals can remain healthy (see later posts for further information).

and…

8. Fortunately, humans cannot be infected with avian malaria. Rest assured.

You had me worrying there!

Cor, you had me worrying there. PHEW!

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