The main research content of the field of ecological stoichiometry is the energy of various chemical elements and the interaction between organisms and the environment throughout ecological processes. Nitrogen and phosphorus are the main elements required for the growth and development of plants and these also form the constituent basis of biological organisms. Both elements interact and jointly regulate the growth and development of plants, and their element ratios are an indication of the nutrient utilization rate and nutrient limitation status of plants. Previous research developed a general biogeography model of the stoichiometric relationship between nitrogen and phosphorus in plant leaves on a global scale. Further, it was shown that ...
The nutrient ecological stoichiometry of plants and soil is important for the growth and dynamics of...
Major Program of the National Natural Science Foundation of China 31290220<p class="FR_field"> Und...
Understanding the geographic patterns and potential drivers of leaf stoichiometry is critical for mo...
The main research content of the field of ecological stoichiometry is the energy of various chemical...
Stoichiometry of leaf N and P is a characteristic of plant to adapt to environment, and can provide ...
Leaf nitrogen and phosphorus stoichiometry of Chinese terrestrial plants was studied based on a nati...
Ecological stoichiometry connects different levels of biology, from the gene to the globe, by scalin...
Nitrogen (N) and phosphorus (P) are essential components of the basic cell structure of plants. In p...
Leaf nitrogen (N) and phosphorus (P) concentrations constrain photosynthetic and metabolic processes...
Plant stoichiometry is critical for the structure and functions of ecosystems. Previous studies on l...
Leaf chemistry is important in predicting the functioning and dynamics of ecosystems. As two key tra...
Leaf nitrogen (N) and phosphorus (P) have been used widely in the ecological stoichiometry to unders...
Ecological stoichiometry is a powerful indicator for understanding the adaptation of plants to envir...
Leaf nitrogen (N) and phosphorus (P) have been used widely in the ecological stoichiometry to unders...
Understanding the geographic patterns and potential drivers of leaf stoichiometry is critical for mo...
The nutrient ecological stoichiometry of plants and soil is important for the growth and dynamics of...
Major Program of the National Natural Science Foundation of China 31290220<p class="FR_field"> Und...
Understanding the geographic patterns and potential drivers of leaf stoichiometry is critical for mo...
The main research content of the field of ecological stoichiometry is the energy of various chemical...
Stoichiometry of leaf N and P is a characteristic of plant to adapt to environment, and can provide ...
Leaf nitrogen and phosphorus stoichiometry of Chinese terrestrial plants was studied based on a nati...
Ecological stoichiometry connects different levels of biology, from the gene to the globe, by scalin...
Nitrogen (N) and phosphorus (P) are essential components of the basic cell structure of plants. In p...
Leaf nitrogen (N) and phosphorus (P) concentrations constrain photosynthetic and metabolic processes...
Plant stoichiometry is critical for the structure and functions of ecosystems. Previous studies on l...
Leaf chemistry is important in predicting the functioning and dynamics of ecosystems. As two key tra...
Leaf nitrogen (N) and phosphorus (P) have been used widely in the ecological stoichiometry to unders...
Ecological stoichiometry is a powerful indicator for understanding the adaptation of plants to envir...
Leaf nitrogen (N) and phosphorus (P) have been used widely in the ecological stoichiometry to unders...
Understanding the geographic patterns and potential drivers of leaf stoichiometry is critical for mo...
The nutrient ecological stoichiometry of plants and soil is important for the growth and dynamics of...
Major Program of the National Natural Science Foundation of China 31290220<p class="FR_field"> Und...
Understanding the geographic patterns and potential drivers of leaf stoichiometry is critical for mo...