Enhancing Ecosystem Services to Minimize Impact of Climate Variability in a Dry Tropical Forest with Vertisols

Guerreiro, Maria João; Andrade, Eunice Maia de; Palácio, Helba Araújo de Queiroz; Brasil, José Bandeira; Filho, Jacques Carvalho Ribeiro

doi:10.3390/hydrology8010046

Cited by 7 publications

(5 citation statements)

References 32 publications

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“…The total event rainfall varied from 0.42 to 116.70 mm (Table 3), evidencing the high variability of rainfall in the region (Figure 4). The highest frequency of occurrence (48%) was recorded for events with a total rainfall below 5.0 mm (Table 3 and Figure 4)-the high occurrence of small rainfall events and high temporal variability are characteristics of tropical semi-arid regions of low latitude [22,33,42]. For more information on the contribution of low rainfall events to the understanding of the hydrological processes, see the research [5,43] in a tropical semi-arid region of low latitude.…”

Section: Resultsmentioning

confidence: 94%

“…The dry period occurs from June to December, with only 1% of the total annual rainfall [22], showing the high temporal variability of rainfall [28,30]. The annual potential evapotranspiration surpasses 2000 mm, which is within the 0.2 and 0.5 rainfall-to-potential evapotranspiration ratio described by [31] for semi-arid regions and has an aridity index of 0.48 [32] that also classifies the region as semi-arid, where water scarcity is observed 9 to 10 months per year [33].…”

Section: Study Areamentioning

confidence: 80%

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Canopy Effects on Rainfall Partition and Throughfall Drop Size Distribution in a Tropical Dry Forest

et al. 2022

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The energy distribution of natural rainfall droplets at different stages of canopy development in low-latitude semi-arid environments is still understudied. We assessed relationships between canopy development, gross rainfall (P) and throughfall (TF) characteristics in a tropical dry forest (TDF) with a total of 95 events of natural rain during December 2019–July 2021, in Northeast Brazil. One disdrometer was installed in an open field to record the gross rainfall and another under the deciduous vegetation canopy to record the throughfall. At the onset of the rainy season with a low leaf density, a larger fraction of rainfall was converted into throughfall, which declines as the leaf density increases. For events higher than 3 mm, the number of TF drops was always higher than that of P and with smaller diameters, regardless of the stage of canopy development, which indicates fragmenting of the rain drops by the vegetation canopy. The insights of this study are useful to quantify the impact of canopy development stages of a TDF on the characteristics of rainfall reaching the soil forest. Since those characteristics affect the water balance and soil erosion at the hillslope scale, the information provided is crucial for water and soil management.

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Section: Resultsmentioning

confidence: 94%

Section: Study Areamentioning

confidence: 80%

Canopy Effects on Rainfall Partition and Throughfall Drop Size Distribution in a Tropical Dry Forest

et al. 2022

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“…The historical mean annual rainfall of the region is 997 ± 300 mm, of which 89% is concentrated in the period from December to May [15]. The average potential evaporation is 2113 mm year -1 , with an aridity index of 0.48 [16].…”

Section: Study Areamentioning

confidence: 99%

Climate Data to Predict Geometry of Cracks in Expansive Soils in a Tropical Semiarid Region

et al. 2022

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The nonlinear dynamics of the determining factors of the morphometric characteristics of cracks in expansive soils make their typification a challenge, especially under field conditions. To overcome this difficulty, we used artificial neural networks to estimate crack characteristics in a Vertisol under field conditions. From July 2019 to June 2020, the morphometric characteristics of soil cracks (area, depth and volume), and environmental factors (soil moisture, rainfall, potential evapotranspiration and water balance) were monitored and evaluated in six experimental plots in a tropical semiarid region. Sixty-six events were measured in each plot to calibrate and validate two sets of inputs in the multilayer neural network model. One set was comprised of environmental factors with significant correlations with the morphometric characteristics of cracks in the soil. The other included only those with a significant high and very high correlation, reducing the number of variables by 35%. The set with the significant high and very high correlations showed greater accuracy in predicting crack characteristics, implying that it is preferable to have fewer variables with a higher correlation than to have more variables of lower correlation in the model. Both sets of data showed a good performance in predicting area and depth of cracks in the soils with a clay content above 30%. The highest dispersion of modeled over predicted values for all morphometric characteristics was in soils with a sand content above 40%. The model was successful in evaluating crack characteristics from environmental factors within its limitations and may support decisions on watershed management in view of climate-change scenarios.

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“…However, many of the assumptions about drylands turn out to be unfounded. For example, some drylands in equatorial Africa receive more than 1000 mm of rainfall per year, but often suffer from prolonged dry seasons and high mean temperatures, leading to high rates of water loss through transpiration and evapotranspiration [1] . Low soil moisture and high atmospheric water demand are the two main driving forces threatening agroecosystems.…”

Section: Challenges For Dryland Agroecosystems 21 Water Deficitmentioning

confidence: 99%

“…Rainfall patterns, erosive winds and high temperatures pose the greatest risks to dryland agroecosystems. Most dryland agroecosystems face climatic uncertainty, and annual precipitation can vary from well above and to well below the 50% mean throughout the year, which can cause hydrological imbalance [1] . Rainfall intensity and the number of dry days increased from 1974 to 2017 in tropical drylands of Iguatu, Brazil, aggravating the already dry characteristics of the region and contributing to more extreme runoff events [2] .…”

Section: Weather Variabilitymentioning

confidence: 99%

Strategies for Improving Water Use Efficiency in Dryland Agroecosystems

Zahra

Farooq

Siddique

2021

Front. Agr. Sci. Eng.

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Enhancing Ecosystem Services to Minimize Impact of Climate Variability in a Dry Tropical Forest with Vertisols

Cited by 7 publications

References 32 publications

Canopy Effects on Rainfall Partition and Throughfall Drop Size Distribution in a Tropical Dry Forest

Canopy Effects on Rainfall Partition and Throughfall Drop Size Distribution in a Tropical Dry Forest

Climate Data to Predict Geometry of Cracks in Expansive Soils in a Tropical Semiarid Region

Strategies for Improving Water Use Efficiency in Dryland Agroecosystems

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