TY - JOUR AU - Maldonado, Gabriela P. AU - Yarzábal, Luis A. AU - Cevallos-Cevallos, Juan M. AU - Chica, Eduardo J. AU - Peña, Denisse F. PY - 2020/04/22 Y2 - 2024/03/29 TI - Root endophytic fungi promote in vitro seed germination in <i>Pleurothallis coriacardia</i> (Orchidaceae) JF - Lankesteriana: International Journal on Orchidology JA - LIJO VL - 20 IS - 1 SE - Articles DO - 10.15517/lank.v20i1.41472 UR - https://revistas.ucr.ac.cr/index.php/lankesteriana/article/view/41472 SP - 107–122 AB - <p>Seeds of many orchids rely on the presence of fungi to trigger the germination process and even to initiate the full development of protocorms. While attention has been directed towards the study of mycorrhizal fungi, the diversity and functions of endophytic fungi from orchid roots remain underexplored, and few studies have verified their ecological role. This is the case of <em>Pleurothallis coriacardia</em>, an endemic green Neotropical orchid with both epiphytic and lithophytic habits growing in High-Andean montane forests. In the present study, we screened the cultivable fraction of the endophytic fungi colonizing the roots of mature plants of <em>P. coriacardia </em>using ITS rDNA markers<em>. </em>We also tested the potential of these endophytic fungi to improve embryo development and seed germination. Most of the isolated endophytes were classified within Psathyrellaceae. Some isolates, identified as members of the <em>Ilyonectria&nbsp;</em>and <em>Coprinellus </em>genera, significantly promoted embryo development <em>in vitro </em>in <em>P. coriacardia </em>seeds, a result that highlights the ecological roles these endophytic fungi may play in nature.</p><p class="p1"><span class="s1">K</span><span class="s2">eywords</span><span class="s1">: </span>Andean montane forest, embryo development, epiphytic orchids, <em>Ilyonectria</em>, lithophytic orchids, Psathryrellaceae</p> ER -