Table 2 Highlights in specific literature-supported studies on zoonoses and climate change emergence

1

Epidemiology of Zoonotic Infections in Finland

Recognise zoonotic infections in practice.

Zoonosis linking to hospitalisation and mortality.

[22]

2

Borrelia burgdorferi emergence ticls worldwide

Compiling tick species responsible for transmitting the zoonotic vector across the globe.

Monitoring overwhelming effects on human and animal health and well-being.

[17]

3

Iran zoonotic cutaneous leishmaniasis (ZCL)

Prioritising areas where the vector and reservoir(s) of ZCL have yet to be reported.

Refines and updated future dissemination models.

[7]

4

Zoonotic Babesia global evidence

Knowledge gaps will be used to inform future health policy and decision-making.

Required epidemiology and surveillance work, tracking the possible spread of Babesia into previously unaffected areas, as predictive models investigating the impact of CC on Babesia species.

[50]

5

Epidemiology of zoonotic tick-borne diseases in Latin America

Molecular and epidemiological studies in specific parts of the world.

Scientific and financial restrictions to further studies investigating tick-borne diseases.

[34]

6

Zoonotic hybrid schistosomiasis in west Africa

Expanding and adapting existing mathematical model frameworks for schistosome transmission to zoonotic hybrid systems.

Exploring model frameworks to use molecular and epidemiological data.

[3]

7

China’s Capacity to Manage Emerging and Re-emerging Zoonotic Diseases

Increasing changes hamper China’s capacity to manage zoonotic diseases in movement, urbanisation, and climate.

Optimising successful disease control and prevention practices.

[15]

8

Economic factors influencing zoonotic diseases dynamics

The importance of anthropogenic factors is to be fully considered.

Focus on the economic factors in the transmission of zoonotic diseases.

[12]