期刊,Agricultural Water Management 2022年265卷期_国家学术搜索

期刊信息/Journal information

Agricultural Water Management

Elsevier

主办单位：Elsevier

国际刊号：0378-3774

Agricultural Water Management/Journal Agricultural Water ManagementSCIISTPEI

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Interaction between soil water and fertilizer utilization on maize under plastic mulching in an arid irrigation region of China

Quan, HaoDing, DianyuanYang, ZhentingDong, Qin'ge...

13页

查看更多>>摘要：Plastic film mulching (PM) has become a widely used cropping method in arid and semiarid areas. However, it is unknown how different PMs affect crop water and N utilization and their interaction under different N supplies. A two-year field experiment was conducted in the Hetao Irrigation District (HID), in northwest China. Following local irrigation practices, 500 mm border irrigation was used to grow spring maize over two growing seasons (2019 and 2020) with two N levels: high-N (225 kg N ha(-1)) and low-N (150 kg N ha(-1)). Combined with three mulching methods, the experiment had five treatments: (i) no mulching with high-N (control, CK), (ii) black plastic film with high-N (HB), (iii) transparent plastic film with high-N (HT), (iv) black plastic film with low-N (LB), and (v) transparent plastic film with low-N (LT). The 4 PM treatments had higher average soil water storage (0-120 cm) than CK. The PM treatments had the highest water consumption coefficients (K-wcn) at 6-leaf to 12-leaf stage (K-wc2) and milking to maturity (K-wc5) stage. The HP treatments (HB and HT) had higher soil nitrogen storage than CK during the growth period. Averaged across two seasons, HB and HT had 23.9%, 29.2% respectively, higher grain yields than CK. Averaged across two seasons, the transparent PM treatments had 7.49%, 5.31%, and 1.72% higher water use efficiency (WUE), partial factor productivity of nitrogen (PFPN), and harvest index, respectively, than the black PM treatments. The PM treatments showed the relationship between water use efficiency of biomass (WUEb) and nitrogen use efficiency of biomass (NUEb), with WUEb increased, NUEb also increased. Given these results, we recommend the high-N level and transparent PM for maize cropping to increase yield and resource utilization efficiency in the HID.

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Irrigation estimates from space: Implementation of different approaches to model the evapotranspiration contribution within a soil-moisture-based inversion algorithm

Dari, JacopoQuintana-Segui, PereMorbidelli, RenatoSaltalippi, Carla...

17页

查看更多>>摘要：Irrigation is the most impacting and uncertain human intervention on the water resource. The possibility of retrieving information on irrigation practices through remote sensing technology opens unprecedented perspectives on the monitoring of anthropized basins. This study is aimed at assessing the impact of different approaches to model the contribution of the evapotranspiration in retrieving the amounts of water applied for irrigation through a soil-moisture-based (SM-based) inversion algorithm; such a contribution is conclusive especially over semi-arid regions. Three modeling approaches relying on both calculated and remotely sensed actual and potential evapotranspiration (ET and PET) data sets were implemented to represent the evapotranspiration rate within the SM-based inversion method, which allows backward estimation of irrigation through the soil water balance inversion. By combining the different evapotranspiration data sources and modeling approaches, seven experiments aimed at inverting DISPATCH (DISaggregation based on Physical And Theoretical scale CHange) downscaled SMAP (Soil Moisture Active Passive) soil moisture at 1 km to estimate irrigation over four heavily irrigated agricultural districts located in Spain (Aragon and Catalonia) were compared. The results highlighted that the application of the FAO56 guidelines parametrization relying on the use of optical data as proposed by the authors in a previous study remains the most reliable configuration. In fact, the implementation of a simplified approach not considering the transpiration component of the specific crop led to irrigation underestimates. Finally, it is interesting to note that the application of the method with remotely sensed ET from MODIS (MODerate-resolution Imaging Spectroradiometer) produced reliable district-aggregated irrigation estimates, thus opening the perspective of an algorithm configuration forced with remote sensing data only.

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A new multi-variable integrated framework for identifying flash drought in the Loess Plateau and Qinling Mountains regions of China

Zhang, YuLiu, XiaohongJiao, WenzheZhao, Liangju...

13页

查看更多>>摘要：Flash drought is an extreme phenomenon, characterized by unusually rapid intensification of drought severity, with strong impacts on plant growth especially for crops. However, it's unclear how hydrometeorological changes contribute to flash drought and how vegetation physiology, greenness, and productivity respond to flash drought. In this study, we developed an multivariate integrated framework for flash drought identification using a regression model based on principal-components analysis (PCA): the PCA regression flash drought (PRFD) model. Three criteria are specified to emphasize the rapid intensification of drought and its impacts on vegetation growth and water resources. We applied our new model in two geographical units with different climates and hydrology: one is dominated by agriculture and subject to natural drought (the Loess Plateau) and the other, a natural region with infrequent drought (the Qinling Mountains). We found that high frequency of flash droughts is most likely to occur in the eastern and central Loess Plateau and part of the Qinling Mountains. However, in relatively humid areas, flash drought shows strong intensity such as the Qinling Mountains and western and eastern edges of the Loess Plateau. Trend analysis indicates that PRFD has increased frequency, longer duration, and stronger intensity since the 1990s in both regions. From an ecological perspective, PRFD also showed a spatial pattern consistent with values of vegetation-related proxies that were below the long-term average, demonstrating vegetation transpiration, normalized-difference vegetation index (NDVI), gross primary productivity have obvious feedback on flash drought events. The Loess Plateau's NDVI responded immediately to flash drought, versus a 1-month lag in the Qinling Mountains. Because our proposed framework integrates multiple aspects of drought information, it can be applied in areas outside the study region according to regional hydrometeorological conditions. This has significant implications for improving agricultural management and forecasting future severe impacts of flash drought on plant growth.

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Comparing the effect of different irrigation water scenarios on arid region pecan orchard using a system dynamics approach

Palmate, Santosh S.Kumar, SauravPoulose, ThomasGanjegunte, Girisha K....

14页

查看更多>>摘要：Water scarcity and soil salinization in arid regions have made desalination a competitive alternative source for irrigation. Perceptions of a higher cost and other misconceptions about desalinated water have limited its broader usage in agriculture. In this study, we have focused on understanding the suitability of using desalinated water as a substitute for saline water in the pecan (Carya illinoinensis) orchards of southwest Texas. Pecan is a perennial high-value nut crop that cannot be easily replaced. Therefore, it represents a perfect case study for the application of desalinated water. A recently developed system dynamic model, SMITUV (System Dynamic Modeling of Infiltration, Solute Transport, and Root Water Uptake in Vadose Zone), was modified to assess the effects of irrigation with desalinated water when soil-water salt content increased above pecan tolerance levels. This model simulated five irrigation scenarios with different fractions of river water and saline groundwater. As expected, to sustain the same level of pecan production, a higher amount of desalinated water was needed with increasing amounts of groundwater in the irrigation mix. Soil texture had a significant influence on the amount of desalinated water required. For sandy and silty soils, the 100% river water scenario required no additional desalinated water. Clayey soils could not sustain high production even in a 100% river water scenario. An economic analysis showed that pecan operations might be viable in non-clayey regions for some irrigation mixture even after factoring in the cost of using desalinated water. However, current desalination techniques and associated costs were economically unviable for sustaining pecan in regions with saline groundwater and clayey soils. This study also demonstrated the application of SMITUV and system dynamic modeling as a decision making tool to assist growers in understanding the farm-scale applicability of desalinated water.

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Modeling of water management for cotton production in Uzbekistan

Abduraupov, RustamAkhmadjanova, GulmiraIbragimov, AbdullaBala, B. K....

10页

查看更多>>摘要：Cotton is the main crop in Uzbekistan. The use of water for irrigation of cotton has a number of environmental consequences, most notably the decreasing of the Aral Sea, and triggering water salinity increase. Modeling of water management for cotton production in the cotton agro-eco zones of Uzbekistan is a challenge constrained by the availability and salinity of water. This research presents a system dynamics model of water management for cotton production in Uzbekistan. Causal loop diagram and stock flow diagram are hypothesized to generate the observed behavior of cotton production system. The model was programmed using the software STELLA and was solved using Runge-Kutta forth order method. Simulated results agree well with the observed data of cotton area and total cotton production quantitatively. Sensitivity analysis of the model have also been addressed. Also the model has been simulated to address the policy issue of investment on drip irrigation, cotton price liberalization, improvement in crop productivity and a mix policy which is combination of these three policies. Finally, the model provides better understanding and greater insights for water management of cotton production for better management of cotton production and can be used as a computer laboratory for scenario building and policy analysis.

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Simultaneous estimation of surface soil moisture and salinity during irrigation with the moisture-salinity-dependent spectral response model

Zhang, ZhitaoDu, RuiqiChen, JunyingChen, Yinwen...

12页

查看更多>>摘要：Soil moisture and salinity are both important environmental variables for crop growth in agricultural production areas. Optical remote-sensing datasets from different sensors are available for estimating soil moisture and salinity from different spatial-temporal scales. Given the co-regulation of soil spectral reflectance (SR) by soil moisture and salinity, the simultaneous estimation of moisture and salinity in saline soil may result in great bias and uncertainty. To address this problem, soil samples were collected in the salinized area during irrigation. Synchronously, processed multi-spectral images were acquired from Sentinel-2 satellite. The spectrum mechanism responsive to soil moisture and salinity was verified by statistical tests, and its corresponding mathematical model (MSS model) was developed to identify the dominant factors affecting SR and to inverse moisture and salinity. The result showed that the effects of moisture and salinity were temporally constant (facilitation) and changing (from inhibition to facilitation), respectively, during the irrigation stages. The dominant factors in the variation of SR shifted from salinity and moisture-salinity interaction to moisture. Reliable accuracy was achieved in the moisture and salinity estimation using inverse MSS model. The profile from the series of estimations can further reveal the dynamic changes of soil moisture and salinity content during irrigation, and provide guidance for local irrigation management.

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Estimation of direct-seeded guayule cover, crop coefficient, and yield using UAS-based multispectral and RGB data

Elshikha, Diaa Eldin M.Hunsaker, Douglas J.Waller, Peter M.Thorp, Kelly R....

8页

查看更多>>摘要：Guayule (Parthenium argentatum, A. Gray), a perennial desert shrub, produces high-quality natural rubber and is targeted as a domestic natural rubber source in the U.S. While commercialization efforts for guayule are ongoing, crop management requires plant growth monitoring, irrigation requirement assessment, and final yield estimation. Such assistance for guayule management could be provided with remote sensing (RS) data. In this study, field and RS data, collected via drones, from a 2-year guayule irrigation experiment conducted at Maricopa, Arizona were evaluated. In-season field measurements included fractional canopy cover (fc), basal (Kcb) and single (Kc) crop coefficients, and final yields of dry biomass (DB), rubber (RY), and resin (ReY). The objectives of this paper were to compare vegetations indices from MS data (NDVI) and RGB data (triangular greenness index, TGI); and derive linear prediction models for estimating fc, Kcb, Kc, and yield as functions of the MS and RGB indices. The NDVI and TGI showed similar seasonal trends and were correlated at a coefficient of determination (r(2)) of 0.52 and a root mean square error (RMSE) of 0.11. The prediction of measured fc as a linear function of NDVI (r(2) = 0.90) was better than by TGI (r(2) = 0.50). In contrast to TGI, the measured fc was highly correlated with estimated fc based on RGB image evaluation (r(2) = 0.96). Linear models of Kcb and Kc, developed over the two years of guayule growth, had similar r(2) values vs NDVI (r(2) = 0.46 and 0.41, respectively) and vs TGI (r(2) = 0.48 and 0.40, respectively). Final DB, RY, and ReY were predicted by both NDVI (r(2) = 0.75, 0.53, and 0.70, respectively) and TGI (r(2) = 0.72, 0.48, and 0.65, respectively). The RS-based models enable estimation of irrigation requirements and yields in guayule production fields in the U.S.

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Elsevier