Seguir
J. Antonio Guzmán Q.
J. Antonio Guzmán Q.
Otros nombresGuzmán Q., Jose Antonio Guzmán Quesada
Dirección de correo verificada de umn.edu
Título
Citado por
Citado por
Año
Twenty‐first century remote sensing technologies are revolutionizing the study of tropical forests
A Sanchez‐Azofeifa, J Antonio Guzmán, CA Campos, S Castro, ...
Biotropica, 2017
382017
Comparing MODIS and near-surface vegetation indexes for monitoring tropical dry forest phenology along a successional gradient using optical phenology towers
C Rankine, GA Sánchez-Azofeifa, JA Guzmán, MM Espirito-Santo, I Sharp
Environmental Research Letters 12 (10), 105007, 2017
372017
Can terrestrial laser scanners (TLSs) and hemispherical photographs predict tropical dry forest succession with liana abundance?
GA Sánchez-Azofeifa, JA Guzmán, M Vega-Araya, C Campos-Vargas, ...
Biogeosciences 14 (4), 977-988, 2017
362017
Discrimination of liana and tree leaves from a Neotropical Dry Forest using visible-near infrared and longwave infrared reflectance spectra
JA Guzman, B Rivard, GA Sánchez-Azofeifa
Remote Sensing of Environment 219, 135-144, 2018
222018
Growth and photosynthetic performance of five tree seedlings species in response to natural light regimes from the Central Pacific of Costa Rica
JA Guzmán Q, RA Cordero S
Revista de Biología Tropical 61 (3), 1433-1444, 2013
162013
On the relationship of fractal geometry and tree–stand metrics on point clouds derived from terrestrial laser scanning
JA Guzmán Q, I Sharp, F Alencastro, GA Sánchez‐Azofeifa
Methods in Ecology and Evolution 11 (10), 1309-1318, 2020
112020
MODIS and PROBA-V NDVI Products Differ when Compared with Observations from Phenological Towers at Four Tropical Dry Forests in the Americas
JA Guzmán, GA Sanchez-Azofeifa, MM Espírito-Santo
Remote Sensing 11 (19), 2316, 2019
62019
Is forest cover conserved and restored by protected areas?: The case of two wild protected areas in the Central Pacific of Costa Rica
JA Guzmán Q., H Vega S.
International Journal of Tropical Biology and Conservation 63 (3), 579-590, 2015
6*2015
Biomass allocation and gas exchange performance are affected by light conditions in seedlings of endangered Cedrela salvadorensis (Meliaceae)
JA Guzmán, RA Cordero, E Corea
International Journal of Tropical Biology and Conservation 64 (3), 1143-1154, 2016
5*2016
Ecological advantage of leaf heteroblasty in Costus pulverulentus (Costaceae)
JA Guzmán Q.
Botany 93 (3), 151-158, 2015
52015
Prediction of leaf traits of lianas and trees via the integration of wavelet spectra in the visible-near infrared and thermal infrared domains
JA Guzman, GA Sánchez-Azofeifa
Remote Sensing of Environment 259, 112406, 2021
42021
Tropical Dry Forest resilience and Water Use Efficiency: an analysis of productivity under climate change
KD Stan, A Sanchez-Azofeifa, SM Duran, JAG Quesada, M Hesketh, ...
Environmental Research Letters, 2021
42021
Differences in Leaf Temperature between Lianas and Trees in the Neotropical Canopy
JA Guzman, GA Sánchez-Azofeifa, B Rivard
Forests 9 (6), 307, 2018
42018
Liana optical traits increase tropical forest albedo and reduce ecosystem productivity
F Meunier, MD Visser, A Shiklomanov, MC Dietze, JA Guzmán Q, ...
Global Change Biology 28 (1), 227-244, 2022
32022
Using visible-near-infrared spectroscopy to classify lichens at a Neotropical Dry Forest
JA Guzmán, K Laakso, JC López-Rodríguez, B Rivard, ...
Ecological Indicators 111, 105999, 2020
22020
Neighbourhood structure and light availability influence the variations in plant design of shrubs in two cloud forests of different successional status
JA Guzmán Q., RA Cordero
Annals of Botany 188 (1), 23-34, 2016
22016
Neighborhood structure influences the convergence in light capture efficiency and carbon gain: an architectural approach for cloud forest shrubs.
JA Guzmán Q., RA Cordero S.
Tree Physiology 36 (6), 712-724, 2016
22016
Efecto de la regeneración del bosque nuboso sobre la morfología floral y polinización del arbusto heterostílico Palicourea padifolia (Rubiaceae)
JA Guzmán Q, A Rodríguez-Corrales
Cuadernos de Investigación UNED 6 (2), 197-204, 2014
22014
Why can we detect lianas from space?
MD Visser, M Detto, F Meunier, J Wu, B Bongalov, D Coomes, MH Nunes, ...
bioRxiv, 2021
12021
Monitoring the Water Stress of an Indoor Living Wall System Using the “Triangle Method”
X Yuan, K Laakso, CD Davis, JA Guzmán Q, Q Meng, A Sanchez-Azofeifa
Sensors 20 (11), 3261, 2020
12020
El sistema no puede realizar la operación en estos momentos. Inténtalo de nuevo más tarde.
Artículos 1–20