Add to ORKGThe spatial patterns of leaf nutrient traits of plants in seven sites, Yangling, Yongshou, Tongchuan, Fuxian, Ansai, Mizhi and Shenmu, standing from south to north in the Loess Plateau of China, were studied. The results showed that of the 126 plant samples in the Loess Plateau, the mean leaf organic carbon (C), nitrogen (N), phosphorus (P) and potassium (K) were 43.8, 2.41, 0.16 and 1.67%, respectively, and ranked in the order of C > N > K > P. Leaf C, N, P and K ranged from 32.6 to 54.8%, 0.82 to 4.58%, 0.06 to 0.35%, and 0.24 to 4.21%, respectively. The mean leaf C/N, C/P and N/P ratios were 21.2, 312 and 15.4, respectively. It is indicated that leaf N in the Loess Plateau was significantly higher than those in Chinese and globa...
The leaf carbon isotope ratio (C-13) is a useful parameter for predicting a plant's water use effici...
•Variation in plant functional traits is the product of evolutionary and environmental drivers opera...
Understanding the geographic patterns and potential drivers of leaf stoichiometry is critical for mo...
Abstract The spatial patterns of photosynthetic characteristics and leaf physical traits of 171 plan...
Leaf nutrient content and its stoichiometric relationships (N/P ratio) are essential for photosynthe...
Ecological stoichiometry is a powerful indicator for understanding the adaptation of plants to envir...
Leaf nitrogen and phosphorus stoichiometry of Chinese terrestrial plants was studied based on a nati...
IntroductionLeaf functional traits constitute a crucial component of plant functionality, providing ...
Understanding the spatial patterns and the driving factors of plant leaf and soil stoichiometry are ...
Plant leaf functional traits can reflect the adaptive strategies of plants to environmental changes....
<p>Nitrogen (N) has great ecological importance, but the biogeographic pattern across forest biomes ...
Nitrogen (N) has great ecological importance, but the biogeographic pattern across forest biomes in ...
Abstracts: A long-standing goal of ecology and forest management is to understand the environmental ...
Comprehensive information on geographic patterns of leaf morphological traits in Chinese forests is ...
Phosphorus (P) is arguably more limiting than nitrogen for forest ecosystems being free of disturban...
The leaf carbon isotope ratio (C-13) is a useful parameter for predicting a plant's water use effici...
•Variation in plant functional traits is the product of evolutionary and environmental drivers opera...
Understanding the geographic patterns and potential drivers of leaf stoichiometry is critical for mo...
Abstract The spatial patterns of photosynthetic characteristics and leaf physical traits of 171 plan...
Leaf nutrient content and its stoichiometric relationships (N/P ratio) are essential for photosynthe...
Ecological stoichiometry is a powerful indicator for understanding the adaptation of plants to envir...
Leaf nitrogen and phosphorus stoichiometry of Chinese terrestrial plants was studied based on a nati...
IntroductionLeaf functional traits constitute a crucial component of plant functionality, providing ...
Understanding the spatial patterns and the driving factors of plant leaf and soil stoichiometry are ...
Plant leaf functional traits can reflect the adaptive strategies of plants to environmental changes....
<p>Nitrogen (N) has great ecological importance, but the biogeographic pattern across forest biomes ...
Nitrogen (N) has great ecological importance, but the biogeographic pattern across forest biomes in ...
Abstracts: A long-standing goal of ecology and forest management is to understand the environmental ...
Comprehensive information on geographic patterns of leaf morphological traits in Chinese forests is ...
Phosphorus (P) is arguably more limiting than nitrogen for forest ecosystems being free of disturban...
The leaf carbon isotope ratio (C-13) is a useful parameter for predicting a plant's water use effici...
•Variation in plant functional traits is the product of evolutionary and environmental drivers opera...
Understanding the geographic patterns and potential drivers of leaf stoichiometry is critical for mo...