Add to ORKGTemperature determines plant formations and species distribution along altitudinal gradients. Plants in the tropical high Andes, through different physiological and morphological characteristics, respond to freezing night temperatures and high daytime energy inputs which occur anytime of the year. The main objective of this study was to characterize day and night temperature related responses of two Lupinus species with different altitudinal ranges (L. meridanus, 1,800-3,600 and L. eromonomos, 3,700-4,300 m of altitude). Are there differences in night low temperature resistance mechanisms between the species along the gradient? How do these species respond, in terms of optimum temperature for photosynthesis, to increasing altitude? Lupinus ...
The response of plants to altitudinal gradients depends on several factors and might differ among li...
Seasonal variation of temperature could place physiological constraints on the distribution and perf...
Plant growth at extremely high elevations is constrained by high daily thermal amplitude, strong sol...
La ocurrencia del límite arbóreo es un fenómeno global que implica un cambio en la dominancia de for...
The Polylepis tarapacana forests found in Bolivia are unique with respect to their altitudinal distr...
Steep climatic gradients boost morphological and physiological adjustments in plants, with consequen...
Polylepis is a genus restricted to the Andean Mountain Range, naturally occurring above the upper co...
Along soil–air gradients in tropical high mountains, plants growing at soil level tolerate frost whi...
We work in Patagonian forests, the southernmost woody ecosystems of the world, in which three tree s...
Tropical plant species are expected to have high heat tolerance reflecting phenotypic adjustments to...
The frequent occurrence of all year-round below zero temperatures in tropical high mountains constit...
Abstract The tropical high Andes experience greater daily temperature oscillations compared to seaso...
Plants of a domestic (Lycopersicon esculentum [L.] Mill. cv. Abunda) and a high-altitude wild Lycope...
Plants of a domestic (Lycopersicon esculentum [L.] Mill. cv. Abunda) and a high-altitude wild Lycope...
It has been argued that if the cost of investment in cold resistance mechanisms detracts significant...
The response of plants to altitudinal gradients depends on several factors and might differ among li...
Seasonal variation of temperature could place physiological constraints on the distribution and perf...
Plant growth at extremely high elevations is constrained by high daily thermal amplitude, strong sol...
La ocurrencia del límite arbóreo es un fenómeno global que implica un cambio en la dominancia de for...
The Polylepis tarapacana forests found in Bolivia are unique with respect to their altitudinal distr...
Steep climatic gradients boost morphological and physiological adjustments in plants, with consequen...
Polylepis is a genus restricted to the Andean Mountain Range, naturally occurring above the upper co...
Along soil–air gradients in tropical high mountains, plants growing at soil level tolerate frost whi...
We work in Patagonian forests, the southernmost woody ecosystems of the world, in which three tree s...
Tropical plant species are expected to have high heat tolerance reflecting phenotypic adjustments to...
The frequent occurrence of all year-round below zero temperatures in tropical high mountains constit...
Abstract The tropical high Andes experience greater daily temperature oscillations compared to seaso...
Plants of a domestic (Lycopersicon esculentum [L.] Mill. cv. Abunda) and a high-altitude wild Lycope...
Plants of a domestic (Lycopersicon esculentum [L.] Mill. cv. Abunda) and a high-altitude wild Lycope...
It has been argued that if the cost of investment in cold resistance mechanisms detracts significant...
The response of plants to altitudinal gradients depends on several factors and might differ among li...
Seasonal variation of temperature could place physiological constraints on the distribution and perf...
Plant growth at extremely high elevations is constrained by high daily thermal amplitude, strong sol...