Investigating the impacts of biochar on water fluxes in tropical agriculture using stable isotopes

Fischer, Benjamin; Morillas, Laura; Conejo, Johanna Rojas; Sánchez‐Murillo, Ricardo; Serrano, Andrea Suárez; Frentress, Jay; Cheng, Chiung-Hsiang; García, Mónica; Manzoni, Stefano; Johnson, Mark S.; Lyon, Steve W.

doi:10.5194/hess-2020-404

Cited by 3 publications

(13 citation statements)

References 70 publications

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“…The shallower the measurement location, the stronger the influence from atmospheric forcing and consequently the larger the fluctuations of the measurements, explaining the higher variability of the in situ measurements compared to the remote sensing estimates. Besides, the groundwater level was reported 0.8 m below the surface during the dry period [25] and the capillary rise in clay loam soil of the site might dampen the fluctuations of root zone soil moisture. The mismatch of in situ sensor-measured and UAV-derived  makes the two sets of data not readily comparable.…”

Section: Biochar Effects On Soil Water Availabilitymentioning

confidence: 99%

“…Harvest took place on 21 November 2018 and indicated the end of the experiment. See [25] for details of biochar experimental design. Figure 1.…”

Section: Biochar Experiments Plotsmentioning

confidence: 99%

“…where and are the dry and wet edges of the ΔT-fc triangle, estimated following [42]; and [% in m 3 /m 3 ] is the soil moisture content to be estimated. and are soil moisture content at field capacity and wilting point respectively, estimated from soil water retention curve at soil matric potential of -0.05 and -1.5 MPa respectively (see [25] for details of water retention curve estimation using in situ measurements). The spatially explicit soil matric potential (, [MPa]) was then estimated from the UAV-derived soil moisture content using the Van Genuchten model [43]:…”

Section: Energy Components and Variations In Wuementioning

confidence: 99%

“…where Θ = − − , = 1 − 1 , and , , , and n are the water retention curve parameters reported in [25].…”

Section: Energy Components and Variations In Wuementioning

confidence: 99%

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Drone-Based Hyperspectral and Thermal Imagery for Quantifying Upland Rice Growth and Water Use Efficiency After Biochar Application

Jin¹,

Köppl²,

Fischer³

et al. 2021

Preprint

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Low-cost miniature hyperspectral and thermal cameras onboard lightweight unmanned aerial vehicles (UAV) bring new opportunities for monitoring land surface variables at unprecedented fine spatial resolution with acceptable accuracy. This research applies hyperspectral and thermal imagery from a drone to quantify upland rice growth and water use efficiency (WUE) after biochar application in a Costa Rican dry region. The field flights were conducted over two experimental groups with bamboo biochar and sugarcane biochar amendments and one control group without biochar application. Rice canopy biophysical variables were estimated by inversion of a canopy radiative transfer model on hyperspectral reflectance. Variations in gross primary production (GPP) and WUE across treatments were estimated from the normalized difference vegetation index (NDVI), canopy chlorophyll content (CCC), and evapotranspiration. We found that GPP was increased by 41.9±3.4 % when using bamboo biochar and 17.5±3.4 % when using sugarcane biochar, which was probably due to higher soil moisture in the biochar-amended plots and led to significantly higher WUE by 40.8±3.5 % in bamboo biochar and 13.4±3.5 % in sugarcane biochar. This study demonstrated the use of hyperspectral and thermal imagery from drone to provide indicators for quantifying biochar effects on tropical dry cropland by integrating with ground point samples and physical models.

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Section: Biochar Effects On Soil Water Availabilitymentioning

confidence: 99%

“…Harvest took place on 21 November 2018 and indicated the end of the experiment. See [25] for details of biochar experimental design. Figure 1.…”

Section: Biochar Experiments Plotsmentioning

confidence: 99%

Section: Energy Components and Variations In Wuementioning

confidence: 99%

“…where Θ = − − , = 1 − 1 , and , , , and n are the water retention curve parameters reported in [25].…”

Section: Energy Components and Variations In Wuementioning

confidence: 99%

See 2 more Smart Citations

Drone-Based Hyperspectral and Thermal Imagery for Quantifying Upland Rice Growth and Water Use Efficiency After Biochar Application

Jin¹,

Köppl²,

Fischer³

et al. 2021

Preprint

Self Cite

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“…Based on these findings, the authors hypothesized that amending biochar into the top 10-30 cm of the soil, could increase soil water storage and rice plants be able to use water from different soil water pools in comparison to plants grown in non-amended soils (L113-125) across the different time periods studied. First, I should say that after the work of Brooks et al (2020), countless studies across regions (including tropical wet environments; see Goldsmith et al 2012;Muñoz-Villers et al 2018) and revisions have showed that plants use evaporatively fractionated soil water (Sprenger et al, 2016;Sprenger and Allen 2020). The general finding is that plant water is isotopically similar to bulk soil water but not to low suctionâȂŘlysimeter water, implying that roots are generally located in less conductive (mobile) pores where water tends to travel more slowly and can reside for longer times.…”

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confidence: 99%

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2020

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Drone-Based Hyperspectral and Thermal Imagery for Quantifying Upland Rice Productivity and Water Use Efficiency after Biochar Application

et al. 2021

Self Cite

View full text Add to dashboard Cite

Miniature hyperspectral and thermal cameras onboard lightweight unmanned aerial vehicles (UAV) bring new opportunities for monitoring land surface variables at unprecedented fine spatial resolution with acceptable accuracy. This research applies hyperspectral and thermal imagery from a drone to quantify upland rice productivity and water use efficiency (WUE) after biochar application in Costa Rica. The field flights were conducted over two experimental groups with bamboo biochar (BC1) and sugarcane biochar (BC2) amendments and one control (C) group without biochar application. Rice canopy biophysical variables were estimated by inverting a canopy radiative transfer model on hyperspectral reflectance. Variations in gross primary productivity (GPP) and WUE across treatments were estimated using light-use efficiency and WUE models respectively from the normalized difference vegetation index (NDVI), canopy chlorophyll content (CCC), and evapotranspiration rate. We found that GPP was increased by 41.9 ± 3.4% in BC1 and 17.5 ± 3.4% in BC2 versus C, which may be explained by higher soil moisture after biochar application, and consequently significantly higher WUEs by 40.8 ± 3.5% in BC1 and 13.4 ± 3.5% in BC2 compared to C. This study demonstrated the use of hyperspectral and thermal imagery from a drone to quantify biochar effects on dry cropland by integrating ground measurements and physical models.

show abstract

Investigating the impacts of biochar on water fluxes in tropical agriculture using stable isotopes

Cited by 3 publications

References 70 publications

Drone-Based Hyperspectral and Thermal Imagery for Quantifying Upland Rice Growth and Water Use Efficiency After Biochar Application

Drone-Based Hyperspectral and Thermal Imagery for Quantifying Upland Rice Growth and Water Use Efficiency After Biochar Application

Comments to hess-2020-404

Drone-Based Hyperspectral and Thermal Imagery for Quantifying Upland Rice Productivity and Water Use Efficiency after Biochar Application

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