Press release | 14 Feb, 2024
One Health nature conservation project in Central Asia launched by IUCN and partners
Samarkand, Uzbekistan, 13 February 2024 (IUCN) – An IUCN-led international partnership has launched the One Health Central Asia project, aiming to mitigate the risk of zoonoses – diseases that are naturally transmissible from animals to humans – in Central Asia. The new initiative was announced…
News | 27 Oct, 2023
SOS Lemurs to continue until 2029 thanks to 9.5 million CHF extension
In an ongoing commitment to protect one of the world’s most threatened primate groups, IUCN Save Our Species is proud to announce the extension of the SOS Lemurs initiative with a 9.5 million CHF second phase. The only initiative dedicated…
News | 29 Mar, 2023
Strong regional commitment to One Health approach in Central Asia
Five Central Asian countries have jointly confirmed their interest to mitigate the risk of zoonosis emergence in the region by enhancing overall landscape resilience through the One Health approach. The commitments were shared today, closing out a three day regional workshop in Tashkent, co-…
Press release | 02 Feb, 2014
IUCN welcomes Total’s ‘no-go’ commitment in World Heritage sites
Oil and gas company Total has confirmed that it will not carry out extractive operations within natural World Heritage sites, including Virunga National Park. IUCN welcomes this decision and calls on all oil and gas companies to follow suit.
Story | 23 May, 2011
Video in Arabic, Chinese, French, Hebrew and Spanish: Love. Not Loss.
This popular video is now available in six languages. Screen it at your next event and start people talking about how to 'communicate biodiversity'.
Story | 02 Jan, 2011
IUCN welcomes ‘Forests 2011’ - International Year of Forests
The world’s forests are essential to life in all its diversity and to attaining humanity’s biggest goals such as reducing poverty, curbing climate change and achieving sustainable development. Throughout 2011 IUCN will work towards making sure that forests deliver their maximum potential for…