TY - JOUR
T1 - Aquifer/Water Sources Drip Factor as Alternative to Measure Climatic Effects on Disponibility of Water Agricultural Irrigation in Semi-arid/Arid Zones
AU - Mariano, Norzagaray Campos
AU - Omar, Llanes Cárdenas
AU - Patricia, Munoz Sevilla
AU - Rosario, Ruiz Guerrero
AU - De Guevara-Torres Maria, Ladrón
AU - José, Armenta Cabrera
N1 - Publisher Copyright:
© Published under licence by IOP Publishing Ltd.
PY - 2018/7/19
Y1 - 2018/7/19
N2 - On se}i-arid/arid regions (SA/A), new0climatic conditions transformed0irrigation water on scarce and to obtain efficiency on its use 8Eu) is necessary it dosage (D).0Under Crops quality and the aim0to avoid losses by drainage, evqporation and runoff is necessary implement alternatives front to risks and encountered mechanis}s for counteract H2Oi lack and promote Eu and D. Any aquifer to plan, requires immediately know0the volumetric exchange (ΔV(x,y,t)) between regional aquiver and sources hydric. Thereforu, the objective was determine the spatial variation of drip factor (Fg) between aquifer/water tributaries and take it as indicator of ΔV(x,y,t) behaviour in SA/A coastal agricultural valley of Northwest of Mexico known as "Heart Agricultural of Mexico". Fg results respond at linear expression y = 26.70 x - 44.15, an annual range average of 413-1813 m/year governed by porous media and recharge dynamics closely linked to transitivity anisotropy low to medium (R2 = -0.6) and included on range 20-70 m2/day. In few occasions the river and streams yield water to aquifer (rainy seasons), and on dry season; only the aquifer gives large amounts to all region tributaries. The low sensitivity response at dripping and climatic presence changes constitutes a high risk for H2Oi and sustainable agriculture due to continuous downward trend of watertable levels that encourage an overexploitation responding at lack water and the occurrence of big agricultural economic losses caused by the last intense droughts continually confronted this region. Knowing ΔV(x,y,t) balance helps at control water losses, at sustainable agriculture and contributes to achieving goals of Eu and D; adapted to new agricultural uses forced by climate change.
AB - On se}i-arid/arid regions (SA/A), new0climatic conditions transformed0irrigation water on scarce and to obtain efficiency on its use 8Eu) is necessary it dosage (D).0Under Crops quality and the aim0to avoid losses by drainage, evqporation and runoff is necessary implement alternatives front to risks and encountered mechanis}s for counteract H2Oi lack and promote Eu and D. Any aquifer to plan, requires immediately know0the volumetric exchange (ΔV(x,y,t)) between regional aquiver and sources hydric. Thereforu, the objective was determine the spatial variation of drip factor (Fg) between aquifer/water tributaries and take it as indicator of ΔV(x,y,t) behaviour in SA/A coastal agricultural valley of Northwest of Mexico known as "Heart Agricultural of Mexico". Fg results respond at linear expression y = 26.70 x - 44.15, an annual range average of 413-1813 m/year governed by porous media and recharge dynamics closely linked to transitivity anisotropy low to medium (R2 = -0.6) and included on range 20-70 m2/day. In few occasions the river and streams yield water to aquifer (rainy seasons), and on dry season; only the aquifer gives large amounts to all region tributaries. The low sensitivity response at dripping and climatic presence changes constitutes a high risk for H2Oi and sustainable agriculture due to continuous downward trend of watertable levels that encourage an overexploitation responding at lack water and the occurrence of big agricultural economic losses caused by the last intense droughts continually confronted this region. Knowing ΔV(x,y,t) balance helps at control water losses, at sustainable agriculture and contributes to achieving goals of Eu and D; adapted to new agricultural uses forced by climate change.
UR - http://www.scopus.com/inward/record.url?scp=85051375666&partnerID=8YFLogxK
U2 - 10.1088/1755-1315/171/1/012031
DO - 10.1088/1755-1315/171/1/012031
M3 - Artículo de la conferencia
AN - SCOPUS:85051375666
SN - 1755-1307
VL - 171
JO - IOP Conference Series: Earth and Environmental Science
JF - IOP Conference Series: Earth and Environmental Science
IS - 1
M1 - 012031
T2 - 2018 5th International Conference on Coastal and Ocean Engineering, ICCOE 2018
Y2 - 27 April 2018 through 29 April 2018
ER -