<p>A new theory provided by Simcha Lev-Yadun, professor of biology at the University of Haifa-Oranim and Jarmo Holopainen of the University of Kuopio, Finland, propose taking a step 35 million years back, to solve the mystery.<br /><br />The green of a tree's leaves is from the larger proportion of the chlorophyll pigment in the leaves.<br /><br /> The change in colour to red or yellow as autumn approaches is not the result of the leaves' dying, but of a series of processes -- which differ between the red and yellow autumn leaves. <br />When the green chlorophyll in leaves diminishes, the yellow pigments that already exist become dominant and give their colour to the leaves. <br /><br />Red autumn leaves result from a different process: As the chlorophyll diminishes, a red pigment, anthocyanin, which was not previously present, is produced in the leaf. <br /><br />These facts were only recently discovered and led to a surge of research studies that attempted to explain why trees expend resources on creating red pigments just as they are about to shed their leaves.<br /><br />An evolutionary ecology approach infers that the strong autumn colours result from the long evolutionary war between the trees and the insects that use them as hosts. <br /><br />These results were published in New Phytologist.<br /></p>
<p>A new theory provided by Simcha Lev-Yadun, professor of biology at the University of Haifa-Oranim and Jarmo Holopainen of the University of Kuopio, Finland, propose taking a step 35 million years back, to solve the mystery.<br /><br />The green of a tree's leaves is from the larger proportion of the chlorophyll pigment in the leaves.<br /><br /> The change in colour to red or yellow as autumn approaches is not the result of the leaves' dying, but of a series of processes -- which differ between the red and yellow autumn leaves. <br />When the green chlorophyll in leaves diminishes, the yellow pigments that already exist become dominant and give their colour to the leaves. <br /><br />Red autumn leaves result from a different process: As the chlorophyll diminishes, a red pigment, anthocyanin, which was not previously present, is produced in the leaf. <br /><br />These facts were only recently discovered and led to a surge of research studies that attempted to explain why trees expend resources on creating red pigments just as they are about to shed their leaves.<br /><br />An evolutionary ecology approach infers that the strong autumn colours result from the long evolutionary war between the trees and the insects that use them as hosts. <br /><br />These results were published in New Phytologist.<br /></p>