Survey of Extremely Endangered Taxons in the flora of Serbia

Viktor Zivojinovic
19.5.2015
Zasavica- speijalni rezervat pridorde.

Hippuris Vulgaris l- Mare's Tail

Hippuris vulgaris know as the Mare's tail is a aquatic plant. This plant prefers non-acidic water. This plant has two names the second one is Horsetail. This plant can be used for many reasons, healing woods, stopping internal breading.

Hippuris vulgaris is an aquatic perennial plant, it grown form 45cm to 120cm. You can find this plant in slow-flow, small lakes swamps, banks or reed beds, this is an indicator for metamorphic water.. This plant is Extremely endangered because of pollution, and water pollution, also men kind are responsible for this extinction.

Aleksej Janicijevic

Serbia:  Endangered Species

Balkan Goldenring

The Balkan goldenring is assessed as near threatened with warnings of a worsened situation judging at current population trends. The species is found from central to southeastern Europe, however there is limited knowledge regarding the distribution of the species in certain areas such as Romania for example. Although it is locally visible, the problem is that it has a very specific habitat (shaded brooks, streams and medium-sized rivers with gritty bottom), making habitat a huge issue and the primary reason for the species population decline – habitat lose and desiccation of rivers due to climate change. Due to the nature of the species habitat, deforestation is also a big factor, and has a huge impact on the population. It is very likely that the declining population will continue declining in the future.

Pieris balcana

            The pieris balcana is an endemic European species, it is scattered across of much of the Balkans, and is visible on elevations up to 1300m. Its furthest occurrence is up until central Greece. The habitat of the species is broad-leaved deciduous forests (66%), coniferous woodland (16%), mixed woodland (16%). The species isn’t believed to face extreme extinction threats, regardless of it being an endemic species. The reason for the rating Least Concern is that the species has not declined more than 25% in population in the last 10 years, so there is no prediction of complete extinction. The coverage of the species is larger than 20,000km² and its population size is probably larger than 10,000 adult individuals. The main reason for the decline in population is the destruction of habitat. 

China: Endangered Species

Giant Panda
What makes them prone to extinction?
The Giant Panda is native to south central China, and originally lives in the mountain ranges of Sichuan province. Pandas are territorial and apart from breeding season maintain their own space so they require large areas in which to live. Also pandas usually only have one offspring at a time and the mother has to take care of the baby for 18-24 months, and needs a 2 year break in-between. Thus each female panda cannot reproduce enough to quickly increase the population, which is estimated at around 2500.

Factors that lead to extinction:
Now their natural habitat is suffering from deforestation due to human activity and their wild populations are in decline. Also pandas do not like to breed once they are in captivity so there aren't that many pandas in human hands either.

White Flag Dolphin
What makes them prone to extinction?
This type of dolphin is the rarest in the world, only found in the Yangtze river in China. Dating back 20 million years, this type of dolphin has been described as a living fossil. They are so prone to extinction mainly due to their dependance on their habitat. They have nowhere to go and can only live on a 800 km stretch of the river which means that their lives are very much tied to the state of the river.

Factors that lead to extinction:
The White Flag Dolphin is now critically endangered and even possibly extinct due to the habitat loss from dams and the pollution caused by heavy human activity. Attempts were made to save the species as early as the 1980s however it has now been 8 years since the last confirmed sighting.

Poland: Endangered Species

On the list of the critically endangered species in Poland, there are only 6 which have the largest concern. They are named "European" species, which suggests that they are not native to Poland only, but Central Europe possibly.

Slender-billed Curlew
Their largest obstacle in survival is the loss of their habitat due to wintering grounds in the Mediterranean. However, there are still some forest bogs which would be suitable for breeding, in Siberia. They are thought to be still present in secured forests - however their competition in the wildlife may have treated them to become extinct as well. Another issue which they face, is the pollution of their habitats, which are not only forests but also the marine coastal areas, which are affected by oil spills.




European Mink

The European Mink is regionally extinct in Poland, but can still be found in Russia, Ukraine, France, Romania and Spain. In the past, this species was used for fur trade, specifically during the 20th century. The main cause for their decreasing population is the loss of their habitat and over exploitation, but also due to the introduction of a foreign species - the American Mink. The American mink was introduced to the USSR in the mid-20th century, for breeding and hunting for fur trade. No one payed attention to the fact that they were two different species, and due to competition and misunderstanding, the European Mink was being overexploited, therefore is now critically threatened.

Germany Endangered Species

Species #1: Danube Salmon

What makes them prone for extinction?
They only live in the Danube river and lakes around it. Also they are scattered all around this river, so they have to rely on their own reproduction. Due to that there have been unsuccessful attempts to place these fishes in other regions, they are very prone to extinction.
Factors that lead to extinction

They are very scattered around in a 500 km^2. Yet the main factor that is leading to their extinction is the hydropower down the Danube river, due to that these fishes have a hard time passing through these power plants.

Species #2: Distichophyllum carinatum

What makes them prone to extinction?

They depend on very specific conditions to survive in the wild. This means, that everything that is changed around them could result in them going down even more. This also means that if their habitats are going down, they will have no place to live anymore.

Factors that lead to extinction

These plants live in a only 40 Km^2 region. This means that their habitats are very small. They live on trees in a deciduous forests. Another factor is that they are very prone to going extinct with slight changes of the weather. This means that if there is a change in humidity or if there is more air pollution, they can go extinct faster.

Word's Rarest cat Doubles in Population Size

Feb 23, 2015 By Jennifer Viegas
Viktor Zivojinovic

The worlds rarest cat, the Amur tiger increasing by number everyday. According to the data there has been found up to 70 Amur leopards, These big cats were at one point near to extinction.

"Such a strong rebound in Amur tiger is a proof that event the most critically endangered big cat can recover if we protect their habitat and if all of the people work together on conservation efforts." Barney lang, who leads the Asian Species Conservation of the World Wildlife Found (WWF) in the USA.

This is evidence that if people star taking actions, and start to protect endangered species it is possible, to save them. The first sign of the Amur leopards was captured on Video. WWF captured the wild Leopard tiger on tape, and over there Website they trellised  the first sign of them. The video was taken 20 miles form the border of Russia.

Jovana Curcic

Mrs. Medenica

ESS 11

5/11/2015

http://news.nationalgeographic.com/news/2014/10/141030-salamanders-fungus-disease-amphibians-science-lethal-frogs/

http://news.nationalgeographic.com/2015/02/150226-chytrid-fungus-frogs-madagascar-animals-science/

Definition of disease: “Chytridiomycosis is an infectious disease of amphibians, caused by the chytrid Batrachochytrium dendrobatidis, a nonhyphal zoosporic fungus”

I chose this article because it describes one of the endangered species; William’s Bright Eyed by a specific chytrid fungus. I researched the defintion and realized that this infection of amphibians is resulting in world amphibian biodiversity decline. This was the reason I’ve combined a few sources and read more about this important topic.

When I started reading the article about William’s Bright eyed frog from Madagascar, I asked myself why is this so important, and why should this article be interesting for readers, given that I’m not a huge fan of frogs. Some facts that I observed:  

-         As many as 7 percent of the world's amphibian species live only in Madagascar

-         Although many scientists thought that Africa was not affected by this infection, chytrid is present in multiple Madagascar frog species.

-          A 2014 study found chytrid on Madagascar frogs shipped to the U.S. for the pet trade, but researchers weren't sure whether the animals were contaminated en route or infected in Madagascar. 

Then I went to the other article and saw that all the other amphibians are also affected and found that:

-         A fungus that arrived recently in Europe from East Asia is lethal to many salamander species, a study released on Thursday shows, threatening populations in Europe, Africa, and beyond.

-         Every infected animal, a total of 50, died, many within a few weeks of infection.

-         Genetic testing shows the fungus has been lurking for some 30 million years in Asia, where local species evolved to resist it.

Why should we care about this loss of amphibian biodiversity in the past 30 years? Amphibians may help save the world from the decline of fossil fuels. Amphibians produce many unique compounds in their skin that have relevance to us humans.  One compound, epibatidine (coming from a poison dart frog Epipedobates anthonyi), has 200 times more potent than morphine.  How many species are being wiped out before scientists can even describe them, let alone discover what help they might be to humans?

Amphibians are also key components in ecosystem food webs.  Amphibians are unique among vertebrates in the way that they serve as both predator and prey in their habitats.  Tadpoles (which are larval frogs) are important when it comes to controlling aquatic vegetation levels. Salamanders and frogs intake insect pests such as mosquitoes who can eat up to about 900 mosquitos in a day. In some forests, amphibians have the highest percentage of vertebrate biomass, making them important prey items for many other species. Loss of amphibians can very negatively impact ecosystems, because what’s an ecosystem without these tiny species who help fill it up?

Almost 1/3 of the world's more than 6,800 species of amphibians are threatened with extinction or are already extinct.  Habitat loss is the most obvious reason for population declines; if forests are cut down, the species depending on those forests disappear as well. However, amphibians have been experiencing catastrophic population declines around the world, oftenl in  protected areas and throughout the year.  The speed of these declines are much more dramatic than those described for birds and mammals. The causes of these declines are huge, and in any case might include habitat change, disease, climate change, or pollution.

A virulent fungus may be responsible for these extinctions. This fungal pathogen, Batrachochytrium dendrobatidis (Bd), causes the infectious disease chytridiomycosis in amphibians.  Some observations in Central America have shown that when the fungus moves into a new area, more than 50% of the amphibian species become extinct throughout 6 months, and the remaining species stay at only 20% of their population.

Scientists are trying to understand more about this fungal disease, and what can be done to save amphibians.  Amphibians rely on their skin for breathing and for electrolyte transport.  Once the fungal infection is spreads, the skin is no longer able to transport electrolytes needed for the heart to function and the animal dies.  Humans are moving amphibians around and they are carrying disease with them as they go. Dead frogs like this Mexican leaf frog (Pachymedusa dacnicolor) are common where chytrid fungus has infected frogs. The parasite kills frogs by blocking their skin from 

transporting vital nutrients. 

Reading these articles, I realized that again humans are the main sources of this biodiversity decline. Beside the habitat destruction, which is the most important factor of loss of biodiversity, people’s activities spreads this disease from one continent to the other. As we can see from the article, the Asian frogs are less vulnerable to these fungal parasites (perhaps because of gene adaptation). However, the transport of these infected amphibians as pets into the area with more vulnerable local amphibians to this unexpected illness have had a catastrophically negative impact on the local biodiversity.  So the scientists should find a solution to this threat. They are working on a possible preventive treatment using frog skin bacteria that may fight off the fungal invader. Another example would be Panama which are setting up breeding facilities for especially vulnerable amphibians just in case, while others in places including Madagascar and Panama are working on long-term amphibian monitoring efforts.