Mycorrhizal types determined the response of yield of woody bioenergy crops to environmental factors
文献类型: 外文期刊
第一作者: Luo, Mengyuan
作者: Luo, Mengyuan;Yuan, Mingli;Gao, Jiakai;Shi, Zhaoyong;Luo, Mengyuan;Gao, Jiakai;Shi, Zhaoyong;Luo, Mengyuan;Gao, Jiakai;Shi, Zhaoyong;Yuan, Mingli;Ji, Chunhua
作者机构:
关键词: Woody bioenergy crop; Biomass yield; Mycorrhiza; Plant type; Environmental factor
期刊名称:INTERNATIONAL MICROBIOLOGY ( 影响因子:2.3; 五年影响因子:2.7 )
ISSN: 1139-6709
年卷期: 2025 年 28 卷 5 期
页码:
收录情况: SCI
摘要: Meeting the demand for energy solely through fossil fuels has posed challenges. To mitigate the risk of energy shortage, woody bioenergy crops as a renewable energy feedstock have been the subject of many researchers. Also, mycorrhizas play an important role in crop productivity and inevitably affect the biomass yield of woody bioenergy crops. Based on a global synthesis of biomass yield of woody bioenergy crops, a framework for identifying and comparing bioenergy crop biomass in response to mycorrhizal type was developed. Our results found that the biomass yield of woody bioenergy crops in descending order was ectomycorrhizas (ECM) crops (10.2 ton DM ha(-1) year(-1)) > arbuscular mycorrhizas (AM)+ECM crops (8.8 ton DM ha(-1) year(-1)) > AM crops (8.0 ton DM ha(-1) year(-1)). In addition, our analysis revealed that the climate had the strongest effect on biomass yield in AM and ECM crops, whereas geography exerted the most significant influence on biomass yield in AM+ECM crops. Furthermore, there were differences in the biomass yield response of different mycorrhizal and plant types to geographic (latitude and elevation) and climatic factors (mean annual temperature (MAT) and mean annual precipitation (MAP)). When cultivating AM crops, we can focus more on temperature conditions-warmer locations, whereas for ECM crops, selecting regions with higher precipitation levels is advantageous. This study revealed the relationship between mycorrhizae and bioenergy crops. It provides data and theoretical support to rationalize differences in different woody bioenergy crops and their different responses to global change and increased production of bioenergy crops.
分类号:
- 相关文献
作者其他论文 更多>>
-
Spatial-Temporal Variation of N, P, and K Stoichiometry in Cropland of Hainan Island
作者:Ji, Chunhua;Feng, Gu;Ji, Chunhua;Liu, Hailin;Cha, Zhengzao;Lin, Qinghuo
关键词:Hainan Island; soli nutrient; spatial-temporal variability; stoichiometry
-
Elevated precipitation alters the community structure of spring ephemerals by changing dominant species density in Central Asia
作者:Jia, Yangyang;Feng, Gu;Sun, Yu;Zhang, Tao;Shi, Zhaoyong;Maimaitiaili, Baidengsha;Tian, Changyan
关键词:Central Asia; dominant species; elevated precipitation; ephemeral community; plant density; rare species
-
Arbuscular Mycorrhizal Fungi Can Accelerate the Restoration of Degraded Spring Grassland in Central Asia
作者:Zhang, Tao;Shi, Zhaoyong;Feng, Gu;Sun, Yu
关键词:desertification;ephemeral plants;Gurbantunggut Desert;mycorrhizae;reestablishment
-
Can mycorrhizal fungi alleviate plant community instability caused by increased precipitation in arid ecosystems?
作者:Jia, Yangyang;Zhang, Tao;Sun, Yu;Shi, Zhaoyong;Feng, Gu;Jia, Yangyang;Jia, Yangyang;Walder, Florian;Zhang, Tao;Sun, Yu;Shi, Zhaoyong;Wagg, Cameron;Tian, Changyan
关键词:Arbuscular mycorrhizal fungi; Increased precipitation; Community types; Temporal stability; Dominant species; Mycorrhizal plants
