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World markets dive as Trump sparks trade, North Korea worries

Global stocks sank Wednesday after US President Donald Trump said he was not satisfied with talks that are aimed at averting a trade war with China. Equities were also dented by poor eurozone economic data, and as Trump cast doubt on a planned summit with North Korean leader Kim Jong Un. “Trump (is) continuing to drive uncertainty over global trade,” said analyst Joshua Mahony at trading firm IG. “European markets are following their Asian counterparts lower, as a pessimistic tone from Trump is compounded by downbeat economic data,” he added. Markets had surged Monday after US Treasury Secretary Steven Mnuchin and Chinese Vice Premier Liu He said they had agreed to pull back from imposing threatened tariffs on billions of dollars of goods, and continue talks on a variety of trade issues. However, Trump has declared that he was “not satisfied” with the status of the talks, fuelling worries that the world’s top two economies could still slug out an economically pain...

Why disease-bearing insects, viral infections are increasing.

Scientists have provided more reasons why there is rise in the number of mosquitoes and other disease-bearing insects as well as increase in viral infections globally.
Researchers from the European Commission Joint Research Centre found that disease-bearing insects are spreading to ever-wider parts of the world spurred on by climate change, international travel and international trade.
This means that more humans are exposed to viral infections such as Dengue fever, Chikungunya, Zika, West Nile fever, Yellow fever and Tick-borne encephalitis.
For many of these diseases, there are as yet no specific antiviral agents or vaccines.
Global warming has allowed mosquitoes, ticks and other disease-bearing insects to proliferate, adapt to different seasons, migrate and spread to new niche areas that have become warmer.
These are the findings of a JRC report that aims to raise awareness about the threat posed by the spread of arboviruses (arthropod-borne viruses).
The study titled “Toward Climate Change Impact: Vectors carrying viral infection” was published by the European Commission Joint Research Centre.
Aedes mosquitoes spread several arboviruses, including Dengue, Chikungunya, Zika, West Nile and Yellow fever viruses.
These mosquitoes thrive in urban settings due to the lack of natural predators and the ready availability of food and habitats in which to procreate.
They have existed in Africa and Asia for many years and are now becoming more and more widespread.
They have recently become established in some European countries and the Americas, largely as a result of international travel and trade.
Their alarming spread poses a problem for public health. They are difficult to eradicate — their larvae can survive for months, even in suboptimal humidity and temperature conditions.
The tick-borne encephalitis virus (TBEV) has been found in several European countries, including Austria, the Czech Republic, Germany, Lithuania, Poland, Slovakia, Sweden and, more recently, the Netherlands.
One of the more recently reported vectors for the virus, the Dermacentor reticulatus tick species, is rapidly spreading through Europe. It has a high reproduction rate, is cold resistant and can live underwater for months.
Humans can be infected by a tick bite or through consuming unpasteurised dairy products that do not meet EU safety standards and have come from infected animals. Luckily, TBEV can be vaccinated against.
Zika virus (ZIKV) has received a lot of media attention due to its association with neurological disorders such as Guillain-Barré Syndrome (GBS) and the development of microcephaly (abnormally small head) in fetuses.
It is difficult to diagnose and there is no cure or vaccine. First identified in 1947 in the Zika forest of Uganda, its spread is a serious concern given the growing presence of its main vector, the mosquito Aedes albopictus, in temperate zones including Europe and America.
The first documented outbreak of ZIKV infection was reported in 2007 in Micronesia. Since then it spread to French Polynesia and Brazil, where it infected up to 1.3 million people in 2015.
More than 70 territories worldwide have confirmed autochthonous (indigenous) cases of ZIKV. By March 2017, 2 130 Europeans were reported to have travel-associated ZIKV infections.
The report describes and discusses several methods that have been used to control the spread of mosquitoes, including insecticides, mosquito traps, genetic modification, land reclamation and habitat surveillance.
Currently, the safest and most readily available and effective methods of controlling mosquitoes are mosquito traps (for relatively small areas) and nets, and the reduction of potential breeding sites (standing water).
While the research team behind the study advocate better control of mosquito populations, they also warn that it would be unwise to remove mosquitoes completely from the ecosystem.
They are part of the food web for some species, and pollinate many plants. Wiping them out completely could have negative effects on nature, and consequently on humans.
Also, the burden of yellow fever in any given area is known to be heavily dependent on climate, particularly rainfall and temperature, which can impact both mosquito life cycle and viral replication. Now, researchers from Imperial College London and the World Health Organization (WHO) have developed a new model to quantify yellow fever dynamics across Africa using not only annual averages of these climatic measures, but seasonal dynamics. Their work is described in PLOS Neglected Tropical Diseases.
Yellow fever virus is transmitted to people from mosquitos, primarily in tropical and subtropical areas in South America and Africa. The resulting illness ranges in severity, and about half of those infected don’t develop symptoms. But the virus, when it causes severe disease, is thought to cause between 20,000 and 180,000 deaths a year in Africa. Researchers have previously used environmental measures to map areas most at risk of yellow fever outbreaks.
In the new work, Tini Garske of Imperial College London and colleagues, considered the effect of seasonal dynamics on yellow fever transmission. Their model integrated the effects of temperature on mosquito behavior and virus transmission, and looked at monthly variation in temperature rainfall, and vegetation throughout the year across Africa.
The model confirmed and quantified that, even in areas with high transmission potential for yellow fever, the risk varies throughout the year. The seasonal model accurately captured both the geographic and temporal heterogeneities in yellow fever transmission and did not perform worse than the annual model relying only on geographic distribution.
“This finding, in conjunction with forecasted data, could highlight areas of increased transmission and provide insights into the occurrence of large outbreaks, such as those seen in Angola, the Democratic Republic of Congo and Brazil,” the researchers say.

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