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Throughout history, wildlife has been an important source of infectious diseases transmissible to humans. Today, zoonoses with a wildlife reservoir constitute a major public health problem, affecting all continents. The importance of such zoonoses is increasingly recognized, and the need for more attention in this area is being addressed. The total number of zoonoses is unknown, some 1,415 known human pathogens have been catalogued, and 62% are of zoonotic origin [1]. With time, more and more human pathogens are found to be of animal origin. Moreover, most emerging infectious diseases in humans are zoonoses. Wild animals seem to be involved in the epidemiology of most zoonoses and serve as major reservoirs for transmission of zoonotic agents to domestic animals and humans [2]. The concept of the ‘One Health’ approach involving collaboration between veterinary and medical scientists, policy makers, and public health officials, is necessary to foster joint cooperation and control of emerging zoonotic diseases [3]. Zoonotic diseases caused by a wide range of arthropods, bacteria, helminths, protozoans, and viruses can cause serious and even life-threatening clinical conditions in animals, with a number of them also affecting the human population due to their zoonotic potential. The aim of the current Special Issue is to cover recent and novel research trends in zoonotic diseases in wildlife, including the relevant topics related to wildlife, zoonosis, public health, emerging diseases, infectious diseases and parasitic diseases.

Research & information: general --- Biology, life sciences --- Zoology & animal sciences --- west nile virus --- arbovirus --- zoonotic --- macaque --- bats --- c-ELISA --- RT-PCR --- Anaplasma phagocytophilum --- zoonosis --- tick --- wild ungulates --- phylogenesis --- molecular epidemiology --- Coxiella burnetii --- Q fever --- serology --- epidemiology --- wildlife --- European bison --- micromammals --- Cryptosporidium --- Giardia --- Blastocystis --- Enterocytozoon bieneusi --- Balantioides coli --- Troglodytella --- non-human primates --- rats --- zoological garden --- one health --- Helicobacter spp. --- PCR --- Sus scrofa --- Meles meles --- badger --- tuberculosis --- Mycobacterium tuberculosis complex --- P22 ELISA --- isolation --- cattle --- Atlantic Spain --- filter card --- faeces --- transportation --- storage --- preservation --- Giardia duodenalis --- Cryptosporidium hominis --- seroprevalence --- ruminants --- humans --- dust --- aerosols --- Salmonella --- turtles --- wildlife rescue centres --- camera-traps --- interactions --- wildlife-livestock interface --- non-tuberculous mycobacteria --- Leptospira interrogans --- microscopic agglutination test --- Slovenia --- n/a

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Throughout history, wildlife has been an important source of infectious diseases transmissible to humans. Today, zoonoses with a wildlife reservoir constitute a major public health problem, affecting all continents. The importance of such zoonoses is increasingly recognized, and the need for more attention in this area is being addressed. The total number of zoonoses is unknown, some 1,415 known human pathogens have been catalogued, and 62% are of zoonotic origin [1]. With time, more and more human pathogens are found to be of animal origin. Moreover, most emerging infectious diseases in humans are zoonoses. Wild animals seem to be involved in the epidemiology of most zoonoses and serve as major reservoirs for transmission of zoonotic agents to domestic animals and humans [2]. The concept of the ‘One Health’ approach involving collaboration between veterinary and medical scientists, policy makers, and public health officials, is necessary to foster joint cooperation and control of emerging zoonotic diseases [3]. Zoonotic diseases caused by a wide range of arthropods, bacteria, helminths, protozoans, and viruses can cause serious and even life-threatening clinical conditions in animals, with a number of them also affecting the human population due to their zoonotic potential. The aim of the current Special Issue is to cover recent and novel research trends in zoonotic diseases in wildlife, including the relevant topics related to wildlife, zoonosis, public health, emerging diseases, infectious diseases and parasitic diseases.

Research & information: general --- Biology, life sciences --- Zoology & animal sciences --- west nile virus --- arbovirus --- zoonotic --- macaque --- bats --- c-ELISA --- RT-PCR --- Anaplasma phagocytophilum --- zoonosis --- tick --- wild ungulates --- phylogenesis --- molecular epidemiology --- Coxiella burnetii --- Q fever --- serology --- epidemiology --- wildlife --- European bison --- micromammals --- Cryptosporidium --- Giardia --- Blastocystis --- Enterocytozoon bieneusi --- Balantioides coli --- Troglodytella --- non-human primates --- rats --- zoological garden --- one health --- Helicobacter spp. --- PCR --- Sus scrofa --- Meles meles --- badger --- tuberculosis --- Mycobacterium tuberculosis complex --- P22 ELISA --- isolation --- cattle --- Atlantic Spain --- filter card --- faeces --- transportation --- storage --- preservation --- Giardia duodenalis --- Cryptosporidium hominis --- seroprevalence --- ruminants --- humans --- dust --- aerosols --- Salmonella --- turtles --- wildlife rescue centres --- camera-traps --- interactions --- wildlife-livestock interface --- non-tuberculous mycobacteria --- Leptospira interrogans --- microscopic agglutination test --- Slovenia

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The enteric protozoans Cryptosporidium spp. and Giardia duodenalis are the most common diarrhoea-causing protozoan parasites worldwide. Cryptosporidium spp. is a leading cause of diarrhoea morbidity and mortality in children younger than 5 years of age in poor-resource settings in sub-Saharan Africa and South Asia. Although infection by G. duodenalis is rarely a fatal condition, giardiasis is commonly associated with childhood growth faltering and cognitive impairment. Because of their significant socioeconomic impact, particularly in low-income countries, giardiasis and cryptosporidiosis joined the "Neglected Disease Initiative" launched by the World Health Organization in 2004. Both Cryptosporidium spp. and G. duodenalis are ubiquitous in the environment and can infect a wide range of hosts with different specificities, meaning that humans may acquire the infection via waterborne, foodborne, or zoonotic transmission. Recent advances in detection and molecular epidemiology have indicated that certain species/genotypes of Cryptosporidium and G. duodenalis have an expanded range of suitable hosts, suggesting that their transmission pathways are more intricate than previously thought, challenging our current notion of host specificities. Therefore, there is a clear need for more studies that aim to investigate the frequency and molecular diversity of these parasites in humans, production and companion animals, and wildlife species. This information would be extremely useful to elucidate the transmission dynamics of cryptosporidiosis and giardiasis and to investigate the exact contribution of zoonotic events to human infections.

Cryptosporidiosis.