Javier F. Espeleta
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View article: Overcoming the Barriers to Teaching Teamwork to Undergraduates in STEM
Overcoming the Barriers to Teaching Teamwork to Undergraduates in STEM Open
This essay synthesizes key issues associated with teaching teamwork, with the goal of providing the basis for overcoming the barriers to teaching teamwork in life science and STEM classrooms. It focuses on the pedagogy and curricula for te…
View article: Correction to: Diel plant water use and competitive soil cation exchange interact to enhance NH4+ and K+ availability in the rhizosphere
Correction to: Diel plant water use and competitive soil cation exchange interact to enhance NH4+ and K+ availability in the rhizosphere Open
View article: Modeled profiles of NH4+ and K+ in the rhizosphere resulting from diel plant water use and competitive soil cation exchange, Links to model results
Modeled profiles of NH4+ and K+ in the rhizosphere resulting from diel plant water use and competitive soil cation exchange, Links to model results Open
Aims: Hydro-biogeochemical processes in the rhizosphere regulate nutrient and water availability, and thus ecosystem productivity. We hypothesized that two such processes often neglected in rhizosphere models - diel plant water use and com…
View article: Diel plant water use and competitive soil cation exchange interact to enhance NH4 + and K+ availability in the rhizosphere
Diel plant water use and competitive soil cation exchange interact to enhance NH4 + and K+ availability in the rhizosphere Open
View article: Appendix E. Pearson’s correlation coefficients of environmental variables and fine-root biomass.
Appendix E. Pearson’s correlation coefficients of environmental variables and fine-root biomass. Open
Pearson’s correlation coefficients of environmental variables and fine-root biomass.
View article: Appendix H. Raw data file (in tabular form) of fine-root biomass (dead, <2 mm diameter) across all sampling dates and replicate sites.
Appendix H. Raw data file (in tabular form) of fine-root biomass (dead, <2 mm diameter) across all sampling dates and replicate sites. Open
Raw data file (in tabular form) of fine-root biomass (dead, <2 mm diameter) across all sampling dates and replicate sites.
View article: The Caribbean lowland evergreen moist and wet forests
The Caribbean lowland evergreen moist and wet forests Open
This dataset contains the digitized treatments in Plazi based on the original book chapter McClearn, Deedra, Arroyo-Mora, J. Pablo, Castro, Enrique, Coleman, Ronald C., Espeleta, Javier F., García-Robledo, Carlos, Gilman, Alex, González, J…
View article: Appendix B. Survival analysis of fine roots from different tree species from each seasonal cohort.
Appendix B. Survival analysis of fine roots from different tree species from each seasonal cohort. Open
Survival analysis of fine roots from different tree species from each seasonal cohort.
View article: Appendix C. A table showing the number of fine-root samplings per soil gradient, depth, and date.
Appendix C. A table showing the number of fine-root samplings per soil gradient, depth, and date. Open
A table showing the number of fine-root samplings per soil gradient, depth, and date.
View article: Appendix F. Pearson’s correlation coefficients of soil element contents in landscape-wide and topographic gradients.
Appendix F. Pearson’s correlation coefficients of soil element contents in landscape-wide and topographic gradients. Open
Pearson’s correlation coefficients of soil element contents in landscape-wide and topographic gradients.
View article: Appendix D. A table showing fine-root demography (production, death, and mortality) based on root lengths.
Appendix D. A table showing fine-root demography (production, death, and mortality) based on root lengths. Open
A table showing fine-root demography (production, death, and mortality) based on root lengths.
View article: Appendix C. A table showing fine-root demography (production, death, and mortality) based on root numbers.
Appendix C. A table showing fine-root demography (production, death, and mortality) based on root numbers. Open
A table showing fine-root demography (production, death, and mortality) based on root numbers.
View article: Appendix J. Raw data file (in tabular form) of fine-root biomass (dead, <2 to 5 mm diameter) across all sampling dates and replicate sites.
Appendix J. Raw data file (in tabular form) of fine-root biomass (dead, <2 to 5 mm diameter) across all sampling dates and replicate sites. Open
Raw data file (in tabular form) of fine-root biomass (dead, <2 to 5 mm diameter) across all sampling dates and replicate sites.
View article: Appendix I. A figure showing the cumulative curves of fine-root demography (total root proliferation and death), soil water potential (ψs), and temperature (Ts) in each species-specific root chamber.
Appendix I. A figure showing the cumulative curves of fine-root demography (total root proliferation and death), soil water potential (ψs), and temperature (Ts) in each species-specific root chamber. Open
A figure showing the cumulative curves of fine-root demography (total root proliferation and death), soil water potential (ψs), and temperature (Ts) in each species-specific root chamber.
View article: Appendix H. A figure showing the species-specific time courses of the number of living roots pertaining to each seasonal cohort.
Appendix H. A figure showing the species-specific time courses of the number of living roots pertaining to each seasonal cohort. Open
A figure showing the species-specific time courses of the number of living roots pertaining to each seasonal cohort.
View article: Appendix G. Raw data file (in tabular form) of fine-root biomass (live, <2-mm diameter) across all sampling dates and replicate sites.
Appendix G. Raw data file (in tabular form) of fine-root biomass (live, <2-mm diameter) across all sampling dates and replicate sites. Open
Raw data file (in tabular form) of fine-root biomass (live, <2-mm diameter) across all sampling dates and replicate sites.
View article: Appendix G. Results of the proportional hazards regression for root survivorship data (species and root branching order effects).
Appendix G. Results of the proportional hazards regression for root survivorship data (species and root branching order effects). Open
Results of the proportional hazards regression for root survivorship data (species and root branching order effects).
View article: Appendix A. A climate graph showing mean monthly temperature and total monthly rainfall for the study period, plotted onto 30-yr averages at the field site.
Appendix A. A climate graph showing mean monthly temperature and total monthly rainfall for the study period, plotted onto 30-yr averages at the field site. Open
A climate graph showing mean monthly temperature and total monthly rainfall for the study period, plotted onto 30-yr averages at the field site.
View article: Appendix B. A list of methods and equipment used for soil chemical analysis.
Appendix B. A list of methods and equipment used for soil chemical analysis. Open
A list of methods and equipment used for soil chemical analysis.
View article: Appendix D. Graphs showing how fine-root biomass compares between Residual Soil plateaus and slopes during the seven-year study period.
Appendix D. Graphs showing how fine-root biomass compares between Residual Soil plateaus and slopes during the seven-year study period. Open
Graphs showing how fine-root biomass compares between Residual Soil plateaus and slopes during the seven-year study period.
View article: Appendix K. Raw data file (in tabular form) of fine-root biomass from split cores by life and diameter category, soil depth, and across all sampling dates and replicate sites.
Appendix K. Raw data file (in tabular form) of fine-root biomass from split cores by life and diameter category, soil depth, and across all sampling dates and replicate sites. Open
Raw data file (in tabular form) of fine-root biomass from split cores by life and diameter category, soil depth, and across all sampling dates and replicate sites.
View article: Appendix E. A table comparing three different estimates of fine-root turnover rates across tree species.
Appendix E. A table comparing three different estimates of fine-root turnover rates across tree species. Open
A table comparing three different estimates of fine-root turnover rates across tree species.
View article: Appendix I. Raw data file (in tabular form) of fine-root biomass (live, <2 to 5 mm diameter) across all sampling dates and replicate sites.
Appendix I. Raw data file (in tabular form) of fine-root biomass (live, <2 to 5 mm diameter) across all sampling dates and replicate sites. Open
Raw data file (in tabular form) of fine-root biomass (live, <2 to 5 mm diameter) across all sampling dates and replicate sites.
View article: Appendix L. Raw data file (in tabular form) of soil element contents by depth, gradient, and site.
Appendix L. Raw data file (in tabular form) of soil element contents by depth, gradient, and site. Open
Raw data file (in tabular form) of soil element contents by depth, gradient, and site.
View article: Appendix A. A map of La Selva Biological Station showing the location of 18 CARBONO plots in the different soil gradients.
Appendix A. A map of La Selva Biological Station showing the location of 18 CARBONO plots in the different soil gradients. Open
A map of La Selva Biological Station showing the location of 18 CARBONO plots in the different soil gradients.
View article: Appendix F. Survival analysis of different root branching orders from each tree species.
Appendix F. Survival analysis of different root branching orders from each tree species. Open
Survival analysis of different root branching orders from each tree species.