[PDF][PDF] SS31 菌肥对玫瑰香葡萄土壤微生物代谢及叶片荧光特性的影响
苏宏, 田淑芬, 商佳胤, 王丹, 黄建全… - 吉林农业大学 …, 2023 - xuebao.jlau.edu.cn
采用Biolog-ECO 方法明确SS31 菌肥处理后土壤微生物群落代谢特征, 并结合荧光数据解释
SS31 菌肥提高葡萄叶片光合性能的机制和有效性, 研究结果将为SS31 菌肥在葡萄上的推广 …
SS31 菌肥提高葡萄叶片光合性能的机制和有效性, 研究结果将为SS31 菌肥在葡萄上的推广 …
[HTML][HTML] Niche separation of ammonia oxidizers in mudflat and agricultural soils along the Yangtze River, China
Nitrification driven by ammonia oxidizers is a key step of nitrogen removal in estuarine
environments. Spatial distribution characteristics of ammonia-oxidizers have been well …
environments. Spatial distribution characteristics of ammonia-oxidizers have been well …
Arbuscular mycorrhizal symbiosis and nutrient resource limitation: predicting the linkages and effectiveness of partnership
MH Khan, MK Meghvansi, K Prasad, S Siddiqui… - Mycorrhiza-Nutrient …, 2017 - Springer
Arbuscular mycorrhizal (AM) symbiosis is entirely dependent on nutrient exchange between
plant and arbuscular mycorrhizae. The symbioses are up to their fullest under limited …
plant and arbuscular mycorrhizae. The symbioses are up to their fullest under limited …
Soil microbes influence nitrogen limit on the plant biomass of the alpine steppe, North Tibet
H Zhao, X Wang - 2021 - researchsquare.com
It is uncertain that plant biomass of grassland was co-limited by nitrogen (N) and
phosphorus (P) or only limited by N or P. Moreover, it is also unclear why plant biomass was …
phosphorus (P) or only limited by N or P. Moreover, it is also unclear why plant biomass was …
[PDF][PDF] Meta-analysis
C Wang, A Bakhai - Meta, 2019 - researchgate.net
Phenology is one of the most sensitive processes of plant in response to global change.
Anthropogenic activities have considerably increased nitrogen (N) deposition, which …
Anthropogenic activities have considerably increased nitrogen (N) deposition, which …