1.0Synthesishttps://wle.cgiar.org/solutions-and-tools/science-driven-solutionsct-admin-synthesishttps://wle.cgiar.org/solutions-and-tools/science-driven-solutions/author/ct-admin-synthesis/rich600338<blockquote class="wp-embedded-content" data-secret="wBV8Ot9KNK"><a href="https://wle.cgiar.org/solutions-and-tools/science-driven-solutions/setting-targets-for-biodiversity-in-agriculture/">Setting targets for biodiversity in agriculture</a></blockquote><iframe sandbox="allow-scripts" security="restricted" src="https://wle.cgiar.org/solutions-and-tools/science-driven-solutions/setting-targets-for-biodiversity-in-agriculture/embed/#?secret=wBV8Ot9KNK" width="600" height="338" title="“Setting targets for biodiversity in agriculture” — Synthesis" data-secret="wBV8Ot9KNK" frameborder="0" marginwidth="0" marginheight="0" scrolling="no" class="wp-embedded-content"></iframe><script type="text/javascript"> /*! This file is auto-generated */ !function(c,l){"use strict";var e=!1,o=!1;if(l.querySelector)if(c.addEventListener)e=!0;if(c.wp=c.wp||{},c.wp.receiveEmbedMessage);else if(c.wp.receiveEmbedMessage=function(e){var t=e.data;if(!t);else if(!(t.secret||t.message||t.value));else if(/[^a-zA-Z0-9]/.test(t.secret));else{for(var r,s,a,i=l.querySelectorAll('iframe[data-secret="'+t.secret+'"]'),n=l.querySelectorAll('blockquote[data-secret="'+t.secret+'"]'),o=0;o<n.length;o++)n[o].style.display="none";for(o=0;o<i.length;o++)if(r=i[o],e.source!==r.contentWindow);else{if(r.removeAttribute("style"),"height"===t.message){if(1e3<(s=parseInt(t.value,10)))s=1e3;else if(~~s<200)s=200;r.height=s}if("link"===t.message)if(s=l.createElement("a"),a=l.createElement("a"),s.href=r.getAttribute("src"),a.href=t.value,a.host===s.host)if(l.activeElement===r)c.top.location.href=t.value}}},e)c.addEventListener("message",c.wp.receiveEmbedMessage,!1),l.addEventListener("DOMContentLoaded",t,!1),c.addEventListener("load",t,!1);function t(){if(o);else{o=!0;for(var e,t,r,s=-1!==navigator.appVersion.indexOf("MSIE 10"),a=!!navigator.userAgent.match(/Trident.*rv:11\./),i=l.querySelectorAll("iframe.wp-embedded-content"),n=0;n<i.length;n++){if(!(r=(t=i[n]).getAttribute("data-secret")))r=Math.random().toString(36).substr(2,10),t.src+="#?secret="+r,t.setAttribute("data-secret",r);if(s||a)(e=t.cloneNode(!0)).removeAttribute("security"),t.parentNode.replaceChild(e,t);t.contentWindow.postMessage({message:"ready",secret:r},"*")}}}}(window,document); </script> https://wle.cgiar.org/solutions-and-tools/science-driven-solutions/wp-content/uploads/2021/08/G.M.-Devagiri-World-Agroforestry-Centre-e1631982934776.jpg20471084Background Covering approximately 40% of the global land surface and responsible for 80% of land conversion, agriculture is the largest single source of environmental degradation and biodiversity loss. This undermines the very ecosystem services it depends on, threatening our food systems. But agriculture and food also represent the biggest opportunity we have to achieve zero loss […]