Giulia Lembo Caterina scite author profile

Rainfall partitioning and redistribution by canopies are important ecohydrological processes underlying ecosystem dynamics. We quantified and contrasted spatial and temporal variations of rainfall redistribution for a juniper (Juniperus virginiana, redcedar) woodland and a tallgrass prairie in the south-central Great Plains, USA. Our results showed that redcedar trees had high canopy storage capacity (S) ranging from 2.14 mm for open stands to 3.44 mm for closed stands. The canopy funneling ratios (F) of redcedar trees varied substantially among stand type and tree size. The open stands and smaller trees usually had higher F values and were more efficient in partitioning rainfall into stemflow. Larger trees were more effective in partitioning rainfall into throughfall and no significant changes in the total interception ratios among canopy types and tree size were found. The S values were highly variable for tallgrass prairie, ranging from 0.27 mm at early growing season to 3.86 mm at senescence. As a result, the rainfall interception by tallgrass prairie was characterized by high temporal instability. On an annual basis, our results showed no significant difference in total rainfall loss to canopy interception between redcedar trees and tallgrass prairie. Increasing structural complexity associated with redcedar encroachment into tallgrass prairie changes the rainfall redistribution and partitioning pattern at both the temporal and spatial scales, but does not change the overall canopy interception ratios compared with unburned and ungrazed tallgrass prairie. Our findings support the idea of convergence in interception ratio for different canopy structures under the same precipitation regime. The temporal change in rainfall interception loss from redcedar encroachment is important to understand how juniper encroachment will interact with changing rainfall regime and potentially alter regional streamflow under climate change.

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Water use of Juniperus virginiana trees encroached into mesic prairies in Oklahoma, USA

Caterina

Will

Turton

et al. 2013

Ecohydrology

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Juniperus virginiana (eastern redcedar) is encroaching into mesic prairies of the southern Great Plains, USA, and is altering the hydrologic cycle. We used the thermal dissipation technique to quantify daily water use of J. virginiana into a mesic prairie by measuring 19 trees of different sizes from different density stands located in north-central Oklahoma during 2011. We took the additional step to calibrate our measurements by comparing thermal dissipation technique estimates to volumetric water use for a subset of trees. Except for days with maximum air temperature below À3°C, J. virginiana trees used water year round, reached a peak in late May, and exhibited reduced water use in summer when soil water availability was low. Overall daily average water use was 24 l (±21.8 l s.d.) per tree. Trees in low density stands used more water than trees with similar diameters from denser stands. However, there was no difference in water use between trees in different density stands when expressed on a canopy area basis. Approximately 50% of variation in water use that remained after accounting for the factors site, tree, and day was explained using a physiologically-based model that included daily potential evapotranspiration, maximum vapour pressure deficit, maximum temperature, solar radiation, and soil water storage between 0 and 10 cm. Our model suggested that a J. virginiana woodland with a closed canopy is capable of transpiring almost all precipitation reaching the soil in years with normal precipitation, indicating the potential for encroachment to reduce water yield for streamflow and groundwater recharge.

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Chemical properties of ultisol in different tillage systems under sugarcane cultivation

Marasca

Fernandes²,

Caterina

et al. 2016

EnergAgric

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The analysis of different tillage systems impact on soil properties is essential to assist farmers with management strategies. Thus, in this study, we aimed to evaluate the soil chemical properties behavior in sugarcane cultivation under different tillage systems. One tillage system consisted in five-steps deep tillage equipment and the other, in conventional method. We calculated the soil erodibility factor, as it is associated to soil chemical loss. We quantified soil organic matter, soil chemical characteristics and availability of principal nutrients, then, compared them between treatments. There was no significant difference between soil organic matter contents from both treatments. After the five-steps deep tillage, the quantity of Boron increased, while other nutrients quantities decreased. After the conventional tillage treatment, Potassium suffered a significant decrease due to soil erosion and due to high leaching characteristics of sandy soils. The soil erodibility factor was considered of high risk, this way, farmers should not flat the terrain overmuch.

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