Additional file 4 of Effects of heat shock on photosynthesis-related characteristics and lipid profile of Cycas multipinnata and C. panzhihuaensis

Additional file 4. The digalactosyldiacylglycerol (DGDG)-monogalactosyldiacylglycerol (MGDG) ratio of Cycas multipinnata and C. panzhihuaensis subjected to heat stress

Additional file 1 of Effects of heat shock on photosynthesis-related characteristics and lipid profile of Cycas multipinnata and C. panzhihuaensis

Additional file 1. The leaf morphological characteristics of Cycas multipinnata and C. panzhihuaensis subjected to control conditions and 7 d of recovery from heat stress

Additional file 2 of Effects of heat shock on photosynthesis-related characteristics and lipid profile of Cycas multipinnata and C. panzhihuaensis

Additional file 2. All the identified lipid species in leaves of Cycas multipinnata and C. panzhihuaensis

Additional file 3 of Effects of heat shock on photosynthesis-related characteristics and lipid profile of Cycas multipinnata and C. panzhihuaensis

Additional file 3. Changes in lipid molecular species of glycerophospholipids and lysophospholipids in Cycas multipinnata and C. panzhihuaensis subjected to heat stress

Additional file 5 of Effects of heat shock on photosynthesis-related characteristics and lipid profile of Cycas multipinnata and C. panzhihuaensis

Additional file 5. Changes in lipid molecular species of saccharolipids in Cycas multipinnata and C. panzhihuaensis subjected to heat stress

Additional file 7: of Molecular characterization of eukaryotic algal communities in the tropical phyllosphere based on real-time sequencing of the 18S rDNA gene

Table S1. Sampling sites of the 40 leaves specimens from Xishuangbanna Tropical Botanical Garden and quantity of obtained sequences from each sample. (DOCX 18 kb

Red-Stone-Valley and the stones covered with <i>Trentepohlia</i>-carpets.

<p><b>2A-2B:</b> Red-stone Valley and the Yajiageng River; 2<b>C:</b> Red <i>Trentepohlia</i>-carpet in a cold winter; <b>2D: </b><i>Trentepohlia</i> growing on stone walls near the road; <b>2E:</b> Red-Stone-Valley and Yajiageng River; <b>2F-2G:</b> Red-Stone-Valley in foggy conditions; <b>2H:</b> Tibetan Ni-ma stack with <i>Trentepohlia</i> growing on it. <b>2I:</b> Red-Stone-Valley in winter.</p

Map of Gongga Mountain with several glacier valleys, where <i>Trentepohlia</i>-bloom was found. (taken from Google™ earth).

<p>Map of Gongga Mountain with several glacier valleys, where <i>Trentepohlia</i>-bloom was found. (taken from Google™ earth).</p

Additional file 6: of Molecular characterization of eukaryotic algal communities in the tropical phyllosphere based on real-time sequencing of the 18S rDNA gene

Figure S6. Nonlinear multidimensional scaling analysis of 40 phyllosphere algal community structures according to order-level taxonomic compositional similarity (Bray-Crutis distances). (TIF 850 kb

Additional file 4: of Molecular characterization of eukaryotic algal communities in the tropical phyllosphere based on real-time sequencing of the 18S rDNA gene

Figure S4. The alpha diversity of 10 host trees, including Richness (number of OTUs), Abundance (number of sequences), Shannon diversity and Simpson diversity. (TIF 705 kb