Influence of plant traits, soil microbial properties, and abiotic parameters on nitrogen turnover of grassland ecosystems. Ecosphere. 7:e01448.
.
2016. Plant growth drives soil nitrogen cycling and {N}-related microbial activity through changing root traits. Fungal Ecology. 44:100910.
.
2020. Studies of {NH4}+ and {NO3}− uptake ability of subalpine plants and resource-use strategy identified by their functional traits. Oikos. 129:830–841.
.
2020. Soil legacy effects of climatic stress, management and plant functional composition on microbial communities influence the response of {Lolium} perenne to a new drought event. Plant and Soil. 424:233–254.
.
2017. Evolution of a butterfly dispersal syndrome. Proceedings of the Royal Society B: Biological Sciences. 283:20161533.
.
2016. Ranking the ecological causes of dispersal in a butterfly. Ecography. 38:822–831.
.
2015. The {Metatron}: an experimental system to study dispersal and metaecosystems for terrestrial organisms. Nature Methods. 9:828–833.
.
2012. .
2020. .
2019. .
2019. I got it from my mother: {Inter}-nest variation of mercury concentration in neonate {Smooth}-fronted {Caiman} ({Paleosuchus} trigonatus) suggests maternal transfer and possible phenotypical effects. Environmental Research. :110494.
.
2020. Growth duration is a better predictor of stem increment than carbon supply in a {Mediterranean} oak forest: implications for assessing forest productivity under climate change. New Phytologist. :12.
.
2015. Recent climate hiatus revealed dual control by temperature and drought on the stem growth of {Mediterranean} \textit{{Quercus} ilex}. Global Change Biology. 23:42–55.
.
2017. Long-term physiological and morphological acclimation by the evergreen shrub {Buxus} sempervirens {L}. to understory and canopy gap light intensities. Trees. 26:479–491.
.
2012. Vulnerability and hydraulic segmentations at the stem–leaf transition: coordination across {Neotropical} trees. New Phytologist. 228:512–524.
.
2020. Linking drought-induced xylem embolism resistance to wood anatomical traits in {Neotropical} trees. New Phytologist. 229:1453–1466.
.
2021. Comparision of {Methods} for {Polarimetric} {SAR} {Tomography} with {Small} {Number} of {Baselines} in {Forested} {Areas}. Chinese Journal of Electronics. 28:1073–1079.
.
2019. Potential of texture from {SAR} tomographic images for forest aboveground biomass estimation. International Journal of Applied Earth Observation and Geoinformation. 88:102049.
.
2020. Biomass estimation in dense tropical forest using multiple information from single-baseline {P}-band {PolInSAR} data. Remote Sensing of Environment. 221:489–507.
.
2019. The impacts of spatial baseline on forest canopy height model and digital terrain model retrieval using {P}-band {PolInSAR} data. Remote Sensing of Environment. 210:403–421.
.
2018. Potential of texture from {SAR} tomographic images for forest aboveground biomass estimation. International Journal of Applied Earth Observation and Geoinformation. 88:102049.
.
2020. Morphological and phenological shoot plasticity in a {Mediterranean} evergreen oak facing long-term increased drought. Oecologia. 169:565–577.
.
2012. .
2016. .
2021. Soil {Drought} {Anomalies} in {MODIS} {GPP} of a {Mediterranean} {Broadleaved} {Evergreen} {Forest}. Remote Sensing. 7:1154–1180.
.
2015.