Life at the conservative end of the leaf economics spectrum: intergeneric variation in the allocation of phosphorus to biochemical fractions in species of Banksia (Proteaceae) …
In severely phosphorus (P)‐impoverished environments, plants have evolved to use P very
efficiently. Yet, it is unclear how P allocation in leaves contributes to their photosynthetic P …
efficiently. Yet, it is unclear how P allocation in leaves contributes to their photosynthetic P …
Growing in phosphorus‐impoverished habitats in south‐western Australia: How general are phosphorus‐acquisition and‐allocation strategies among Proteaceae …
Numerous phosphorus (P)‐acquisition and‐utilisation strategies have evolved in plants
growing in severely P‐impoverished environments. Although these strategies have been …
growing in severely P‐impoverished environments. Although these strategies have been …
Root carboxylate release is common in phosphorus-limited forest ecosystems in China: using leaf manganese concentration as a proxy
Methods Manganese (Mn) accumulation in mature leaves can indicate the presence of root
carboxylate exudates in rhizosphere soil. To account for environmental factors such as soil …
carboxylate exudates in rhizosphere soil. To account for environmental factors such as soil …
Factors underpinning plant megadiversity in the extremely phosphorus-impoverished Southwest Australian biodiversity hotspot
C Gille - 2024 - research-repository.uwa.edu.au
Factors underpinning plant megadiversity in the extremely phosphorus-impoverished
Southwest Australian biodiversity hotspot Cl Page 1 Factors underpinning plant megadiversity …
Southwest Australian biodiversity hotspot Cl Page 1 Factors underpinning plant megadiversity …
Life history strategies in the extremely phosphorus-efficient Hakea prostrata (Proteaceae): From genes to physiology across leaf and cluster-root development
T Bird - 2024 - research-repository.uwa.edu.au
This thesis explores three aspects regarding Hakea prostrata (Proteaceae) adaptations to its
phosphorus (P)-impoverished natural environment. These include the P-efficient strategy of …
phosphorus (P)-impoverished natural environment. These include the P-efficient strategy of …
24 Phosphorus Soil in Mycorrhizal Acquisition and Non-from Mycorrhizal Plant Species
H Lambers - Plant Roots: The Hidden Half, 2024 - books.google.com
Phosphorus (P) is an essential plant macronutrient that frequently limits plant productivity in
both managed and natural environments (Vitousek et al. 2010), especially in megadiverse …
both managed and natural environments (Vitousek et al. 2010), especially in megadiverse …
Phosphorus Acquisition from Soil in Mycorrhizal and Non-Mycorrhizal Plant Species
H Lambers - Plant Roots - taylorfrancis.com
Roots take up phosphorus (P) as inorganic P, whose concentration in the soil solution is
very low. Plants have evolved adaptations to meet their demand for P. Mycorrhizal …
very low. Plants have evolved adaptations to meet their demand for P. Mycorrhizal …
[引用][C] Mycorrhizal research now: from the micro‐to the macro‐scale
Mycorrhizal symbioses are complex relationships between plants and fungi that significantly
affect ecosystem dynamics and functions across terrestrial environments. These symbiotic …
affect ecosystem dynamics and functions across terrestrial environments. These symbiotic …