Your search keyword '"Water productivity"' showing total 3,987 results

1. Growth, yield, and fiber quality of cotton plants under drought stress are positively affected by seed priming with potassium nitrate.

Author

Khalequzzaman, Ullah, Hayat, Himanshu, Sushil Kumar, García‐Caparrós, Pedro, Tisarum, Rujira, Praseartkul, Patchara, Cha-um, Suriyan, and Datta, Avishek

Subjects

*SUSTAINABLE agriculture, *CASH crops, *COTTON fibers, *SOIL moisture, *SEED yield, *COTTON, *COTTONSEED

Abstract

Growth, productivity, and fiber quality of cotton (Gossypium hirsutum L.), a vital fiber-producing cash crop, are severely affected under drought conditions. Seed priming has a proven role in enhancing crop tolerance to abiotic stress, including drought. The objective of this study was to evaluate the effects of seed priming with KNO3 on cotton productivity and fiber quality under drought stress. A germination experiment was established under laboratory conditions with five treatments of seed priming (non-primed or control treatment, hydropriming, and priming with 2.5, 5.0, and 7.5 g KNO3 L−1). Another experiment under polyhouse conditions based on the same seed priming treatments was conducted under three levels of soil water contents (field capacity [FC] 100%: FC100, 75%: FC75, and 50%: FC50). The results obtained showed that there was a clear reduction in the different parameters tested at FC50 in comparison to FC100 (39–54%, 32–44%, 6–12%, and 7–12% reduction for boll number per plant, seed cotton yield, fiber strength, and leaf relative water content, respectively, across all priming treatments). Seed priming with KNO3 at 5 g L−1 effectively alleviated the detrimental effects originated from drought stress and caused 61–73%, 13–16%, and 16–23% increase in seed cotton yield, fiber length, and fiber strength, respectively, across soil moisture levels when compared with the control treatment. The same KNO3 dose caused an increase of 78% in water productivity in comparison to the control plants at FC50. Priming cotton seeds with 5 g KNO3 L−1 holds promise to obtain synchronized germination, enhance fiber quality, and increase yield, especially under water-limited conditions, thereby promoting economic viability and environmental sustainability. Additionally, this practice enhances water productivity, leading to significant water savings and reduced irrigation costs for cotton farmers. This method could be used as potential technology in advancing sustainable agriculture in water-constraint conditions. [ABSTRACT FROM AUTHOR]

Published

2024

2. Towards organic farming in roselle (Hibiscus sabdariffa L.) cultivation- feasibility of changing its nutrition management from chemical to bio-organic.

Author

Esmaeilian, Yaser, Babaeian, Mahdi, and Iriti, Marcello

Subjects

*SEED proteins, *POULTRY manure, *CALYX, *BIOLOGICAL systems, *ROSELLE

Abstract

The high dependence on chemical fertilizers in the farming systems especially in the arid regions has become a serious challenge that threatens the stability and sustainability of crop production. Therefore, determining alternative nutrition systems based on the organic and biological sources is a critical issue of crops management. The objective of this study is to assess the response of the roselle (Hibiscus sabdariffa L.) to chemical, organic and biological nutrient systems. A two-year field experiment was conducted with a split-plot based on randomized complete blocks design with three replications. The main plots consisted of control (CL), vermicompost (VP), poultry manure (PM), and chemical fertilizer (NPK) (CF), while the sub-plots involved control (AM0), application of Glomus mosseae (AM1), and Rhizophagus intraradices arbuscular mycorrhiza (AM2). The results showed that PM and CF treatments led to the highest increase in fresh calyx yield (58.6%) compared to the control. While PM treatment showed the highest increase in dry calyx yield (23.9%) and seed yield (32.0%). AM inoculation resulted in a 27.3, 26.8, and 22.3% increase in mentioned traits, respectively compared to the control. PM treatment showed the highest values of dry calyx and seed water productivity (13.5 and 15.5 kg m−3, respectively). Also, AM2 treatment showed the highest values for these indices (13.5 and 14.5 kg m−3, respectively). The highest increase in calyx ascorbic acid (20.1%) was obtained from PM treatment, while the highest value of calyx anthocyanin content (0.307 and 0.292 µmol g−1) in the first and the second year was found in PM and CF treatment, respectively. VC treatment resulted in the highest increase in seed oil content (12.8%), while the highest increase in seed protein content (22.8%) belonged to the CF treatment. The average improvements in the calyx ascorbic acid, calyx anthocyanin content, seed oil content, and seed protein content due to AM inoculation were 11.2, 5.0, 9.2, and 7.8%, respectively. According to our findings, the use of mycorrhiza (especially Rhizophagus intraradices) in combination with poultry manure is recommended to achieve proper economic yields and improve water productivity and quality indices of the roselle in order to replace the chemical fertilizers in the cultivation of this plant in the study area. [ABSTRACT FROM AUTHOR]

Published

2024

3. Nexus Between Water Consumption and Economic Output for the Metallic and Non‐Metallic Mineral Products Sector: An Empirical Analysis at the Enterprise Level.

Author

Wang, Chenglong, Shuai, Chenyang, Chen, Xi, Sun, Jingran, and Zhao, Bu

Abstract

With rapid urbanization and industrialization in China, the demand for mineral products and subsequent water consumption have significantly increased, posing challenges to sustainable economic growth due to escalating water scarcity. Few studies have explored the nexus between water use and economic output from the enterprise perspective. This study focuses on the metallic and non‐metallic mineral products sector, quantifying the nexus between water consumption and economic output at the enterprise level, analyzing the heterogeneity of water consumption elasticity of economic output across different regions and sub‐sectors, and identifying key sub‐sectors within each region that are highly dependent on water consumption. The results indicate that for the metallic and non‐metallic mineral products sector, a 1% increase or decrease in water consumption leads to a corresponding increase or decrease in economic output by 0.096%. Water consumption elasticity of economic output varies from 0.056 to 0.131 according to the regions. And it ranges from 0.048 to 0.104 for different sub‐sectors. This study identifies regions and sub‐sectors where economic output is highly dependent on water resources. The findings may help tailor policies to measure the value of water, especially in the context of potential water shortages. [ABSTRACT FROM AUTHOR]

Published

2024

4. Optimizing yield and water productivity in summer mung bean (Vigna radiata L.) through crop residue management and irrigation strategies.

Author

Tripathi, Saurabh, Kaur, Anureet, Brar, Ajmer Singh, Sekhon, Karamjit Singh, Singh, Sukhpreet, Malik, Anurag, and Kisi, Ozgur

Subjects

*CROP management, *LEAF area index, *CROP residues, *IRRIGATION water, *IRRIGATION management, *MUNG bean

Abstract

A multi-season research trial entitled 'crop residue management effects on yield and water productivity of summer mung bean (Vigna radiata L.) under different irrigation regimes in Indian Punjab' was conducted at Punjab Agricultural University (PAU), Regional Research Station (RRS), Bathinda, during rabi 2020 and 2021. The field experiment was conducted in a split-plot layout with nine treatment combinations and replicated thrice. The treatments consisted of T1 (no wheat residue along with tillage), T2 (leftover wheat residue with zero tillage), and T3 (incorporated wheat residue along with tillage) in main plots and irrigation regimes viz., I1 (vegetative growth and flowering stage), I2 (vegetative growth, flowering, and pod filling stage) and I3 (vegetative growth, flowering, pod formation and pod filling stage) in sub-plots, respectively. The growth and yield attributing characters were significantly higher under T3 than T1 but statistically at par with T2 during both years. An increase of 24.1% and 19.0% in grain yield was found in residue incorporation (T3) and residue retention (T2) over residue removal (T1), respectively. Maximum crop and irrigation water productivity was observed under T3 due to reduced water use and increased yield. Among the irrigation regimes, the I3 recorded significantly higher grain yield (0.70 and 0.79 t ha− 1) than I1. It was at par with I2 during both years due to higher irrigation frequency at the pod formation and pod filling stage. Crop water productivity (CWP) was higher under I3, whereas irrigation water productivity (IWP) was higher under I1 during both years. Additional irrigation at the pod-filling stage increased the grain yield by 36.5%, and two additional irrigations at the pod-formation and pod-filling stage further increased yield by 46.2% compared to only two irrigations at the vegetative and flowering stages. The treatment combinations of T2I2 and T3I2 outperformed T1I3 in terms of growth and yield attributing characters viz. plant height, dry matter accumulation (DMA), leaf area index (LAI), pods plant− 1, seeds pod− 1, and 1000-seed weight, which resulted in higher grain yield in these treatment combinations over T1I3. Applying crop residue can help minimize water use and increase crop water productivity. So, retaining crop residue in summer mung bean resulted in saving irrigation water due to lesser evapotranspiration from the soil surface. [ABSTRACT FROM AUTHOR]

Published

2024

5. Modified Surface Drip Irrigation and Hydraulic Barrier Impacts on Soil Moisture and Water Productivity for Tomatoes in a Greenhouse.

Author

Zeineldin, Faisal Ibrahim, Turk, Khalid G. Biro, and Elmulthum, Nagat Ahmed

Subjects

MICROIRRIGATION, WATER distribution, SOIL profiles, SANDY soils, VEGETABLE farming

Abstract

Considerable amounts of irrigation water of vegetable crops grown in homogenous sandy soil profiles could be subjected to deep percolation water losses due to inappropriately designed surface or subsurface drip irrigation methods. This study aimed to investigate the combined influence of implementing clay soil layer in homogenous sandy soil profile of low-tech greenhouse ridges and using modified surface drip irrigation (M-DI) on soil moisture distribution and water productivity of tomatoes. In the greenhouse, a 7.5 cm thick clay soil layer was implemented 15 cm from the soil surface of each ridge as a hydraulic barrier. Three irrigation regimes (100%, 70% and 50% of ETo) were imposed with the M-DI on tomato plants and 100%ETo with surface drip irrigation (DI) as control. Regarding economic valuation, viability was preserved for the M-DI and DI methods. The outcome indicated that soil moisture spreads more horizontally than vertically on the sandy soil above the clay soil layer. The combined effect of the homogenous sandy soil profile amendment and full irrigation (100%ETo) with the M-DI irrigation method increased the tomato fruit yield by 64.5%. Furthermore, the combined influence enhanced water productivity by the M-DI to 54.7 kg/m3 compared to 32 kg/m3 by the DI. However, M-DI demonstrated dominance over DI regarding returns, yield, and profit. Economic-wise, the M-DI requires 50% less of the lateral pipelines needed by the DI in low-tech greenhouses. Adopting the M-DI with a hydraulic barrier can improve soil moisture, water productivity, yield, and returns for tomato crops in low-tech greenhouses under sandy soil conditions. Also, the M-DI with the hydraulic clay barriers was an economically viable investment compared to the DI without clay barriers for growing tomatoes in low-tech greenhouses. [ABSTRACT FROM AUTHOR]

Published

2024

6. Effect of Water and Nitrogen Coupling Regulation on the Growth, Physiology, Yield, and Quality Attributes of Isatis tinctoria L. in the Oasis Irrigation Area of the Hexi Corridor.

Author

Wang, Yucai, Pan, Xiaofan, Deng, Haoliang, Li, Mao, Zhao, Jin, and Yang, Jine

Subjects

*LEAF area index, *NET proceeds, *TOPSIS method, *NITROGEN in water, *WATER management

Abstract

To address the prevailing problems of high water and fertilizer input and low productivity in Isatis tinctoria L. production in the Hexi Corridor in China, the effects of different irrigation amounts and nitrogen application rates on growth characteristics, photosynthetic physiology, root yield, and quality of I. tinctoria plants were studied with the aim of obtaining the optimal irrigation level and nitrogen application rate. From 2021 to 2023, we established a two-factor split-plot experiment in the oasis irrigation area with three irrigation amounts (sufficient water, medium water, and low water are 100%, 85%, and 70% of the typical local irrigation quota) for the main zone; three nitrogen application rates (low nitrogen, 150 kg ha−1, medium nitrogen, 200 kg ha−1, and high nitrogen, 250 kg ha−1) for the secondary zone; and three irrigation amounts without nitrogen as the control to explore the response of these different water and nitrogen management patterns for I. tinctoria in terms of growth characteristics, photosynthetic physiology, root yield, and quality. The results showed the following: (1) When the irrigation amount was increased from 75% to 100% of the local typical irrigation quota and the nitrogen application rate was increased from 150 to 250 kg ha−1, while the plant's height, leaf area index, dry matter accumulation in the stem, leaf, and root, as well as the net photosynthetic rate (Pn), the stomatal conductance (Gs), and the transpiration rate (Tr) of I. tinctoria increased gradually, and the root–shoot ratio decreased. (2) When the irrigation amount increased from 75% to 100% of the local typical irrigation quota, the yield and net proceeds of I. tinctoria increased from 43.12% to 53.43% and 55.07% to 71.61%, respectively. However, when the irrigation quota was 100% of the local typical irrigation quota, and the nitrogen application rate increased from 150 to 200 kg ha−1, the yield of I. tinctoria increased from 21.58% to 23.69%, whereas the increase in nitrogen application rate from 200 to 250 kg ha−1 resulted in a decrease in the yield of I. tinctoria from 10.66% to 18.92%. During the 3-year experiment, the maximum yield of I. tinctoria appeared when treated with sufficient water and medium nitrogen, reaching 9054.68, 8066.79, and 8806.15 kg ha−1, respectively. (3) The effect of different water and nitrogen combination treatments on the root quality of I. tinctoria was significant. Under the same irrigation level, increasing the nitrogen application rate from 150 to 250 kg ha−1 could increase the contents of indigo, indirubin, (R,S)–goitrin, total nucleoside, uridine, and adenosine in the root of I. tinctoria from 3.94% to 9.59%, 1.74% to 12.58%, 5.45% to 18.35%, 5.61% to 11.59%, 7.34% to 11.32%, and 14.98% to 54.40%, respectively, while the root quality of I. tinctoria showed a trend of first increasing and then decreasing under the same nitrogen application level. (4) AHP, the entropy weight method, and the TOPSIS method were used for a comprehensive evaluation of multiple indexes of water–nitrogen coupling planting patterns for I. tinctoria, which resulted in the optimal evaluation of the W3N2 combination. Therefore, the irrigation level was 100% of the local typical irrigation quota, the nitrogen application rate should be appropriately reduced, and controlling the nitrogen application rate at the level of 190.30–218.27 kg ha−1 can improve water–nitrogen productivity yields for I. tinctoria and root quality. The results of this study can provide a theoretical basis and technical support for a more reasonable water and fertilizer management model for the I. tinctoria production industry in the Hexi Corridor in China. [ABSTRACT FROM AUTHOR]

Published

2024

7. Alternate use of fresh and saline waters to improve water productivity and soil sustainability of drip irrigated wheat in a semi-arid region.

Author

Vibhute, Sagar D., Chinchmalatpure, Anil R., T. V., Vineeth, Kumar, Shrvan, Gorain, Bisweswar, Prasad, Indivar, Camus, D. David, and Shukla, Monika

Subjects

*SALINE waters, *GROUNDWATER, *SOIL salinity, *FRESH water, *WATER quality, *MICROIRRIGATION

Abstract

Severe problems of rising groundwater and secondary soil salinization demand holistic agricultural water management in canal command areas. Drip irrigation with alternate use of fresh and saline waters is an excellent irrigation approach to mitigate salinity stress caused by highly saline ground water and also to avoid soil sodicity hazards from canal water. Therefore, a study on cyclic mode conjunctive use of good quality surface water (SW) and highly saline ground water (GW) having average electric conductivity 0.3 and 7.6 dS m−1, respectively was carried out in wheat with five treatments of drip viz. 1SW1GW (1:1 :: SW:GW), 1SW2GW (1:2 :: SW:GW), 2SW1GW (2:1 :: SW:GW), SW (all SW), GW (all GW), and one treatment of conventional border -irrigation method (BI). Highest grain yield was observed in SW (2.99 t ha−1) in 2017–2018 and BI (3.83 t ha−1) in 2018–2019 season. However, yield of SW and BI were statistically at par in both seasons. Grain yield of 1SW1GW, in which only 50% freshwater was used was found statistically at par with SW and BI. Physical Water Productivity was highest for SW, amounting 9.34 and 14.13 kg ha−1.mm−1 during 2017–2018 and 2018–2019, respectively. Soil salinity build up was highest for GW and lowest for SW, whereas it was almost similar for BI and 1SW1GW. Thus, 1SW1GW showed added benefits as its grain yield was statistically at par with SW and BI along with 50% fresh water saving over SW and higher water productivity than BI for similar salinity levels. [ABSTRACT FROM AUTHOR]

Published

2024

8. Leaf gas exchange, water use, and yield of Marula (Sclerocarya birrea) and Kei Apple (Dovyalis caffra): South African indigenous fruit trees with domestication potential.

Author

Wilken, L.E., Kleinert, A., Schmeisser, M., and Dzikiti, S.

Subjects

*SOIL moisture, *WATER shortages, *WATER storage, *WATER use, *GROWING season

Abstract

• Marula transpiration is strongly driven by both climatic and soil water content variations. • Marula can buffer daily transpiration demands via large water storage capacity. • Kei Apple transpiration is predominantly driven by climatic factors. • Whole-tree transpiration can be accurately predicted using a simple Penman-Monteith model, albeit with different parameters for each species. Conventional crop production is expected to decline in the future in sub-Saharan Africa due to the rising costs of inputs, soil degradation, and increasing water scarcity related to climate variability and change. South Africa has more than 30 species of indigenous fruit trees that are adapted to grow under harsh conditions, yet these species are currently underutilized. Their cultivation is constrained by the lack of detailed ecophysiological information required to develop effective management strategies that optimize tree performance. In this study we investigated how two species with domestication potential namely Marula (Sclerocarya birrea) and Kei apple (Dovyalis caffra) responded to climate and soil factors over a period of two years (2019–2021). Photosynthesis, transpiration, and yield were quantified for mature trees growing in experimental orchards in the Mpumalanga Province of South Africa. Leaf gas exchange data were collected at selected intervals during the growing season using an infrared gas analyser while whole tree transpiration rates were quantified using the heat ratio method of monitoring sap flow. These data were used to parameterize a big leaf Penman-Monteith (PM) model to estimate the transpiration dynamics of individual trees at the daily time step. S. birrea's transpiration responded strongly to both climatic and soil water content variations while the water use of D. caffra was driven mostly by climatic factors. Transpiration rates averaged 0.30 L/m2 of leaf area for S. birrea while that of D. caffra was around 0.45 L/m2. Both species exhibited significant alternate bearing with yield of individual trees fluctuating by more than 50 % between successive years. For the 2019/20 season, water productivity (grams of fruit per litre of water transpired) varied between 6.2 and 17.4 g/L for S. birrea and between 24.3 and 41.7 g/L for D. caffra. Whole tree transpiration by both species were accurately predicted using the PM model albeit with different parameters for each species. This study demonstrates that a simple PM model can accurately estimate the water requirements of these species in other growing regions. [ABSTRACT FROM AUTHOR]

Published

2024

9. Effects of Various Salinity and Water Stress Levels on Physiological and Biochemical Traits of Pepper.

Author

Irik, Hasan Ali and Demir, Murat

Subjects

*IRRIGATION water, *SUPEROXIDE dismutase, *WATER consumption, *PLANT-water relationships, *LEAF area

Abstract

Salinity and drought are among the most important abiotic stress factors with vital impacts on plant growth and development. Effects of different salinity and water stress levels on physiological and biochemical traits of pepper were investigated in this study. Five different salinity (S1: 0.3 dS/m; S2: 2.5 dS/m; S3: 5dS/m; S4: 7.5 dS/m; S5: 10 dS/m) and three different irrigation levels (I100: full irrigation; I75: 25% deficit; I50: 50% deficit) were used. Plant water consumption (ET) values decreased in increasing salinity levels. Pepper yield was significantly affected by both salinity and water stress. There was a 62.8% yield loss under salt stress as compared to the control treatment and a 70.1% yield loss under 50% water deficit (I50) as compared to full irrigation (I100). Irrigation water salinity and water deficits caused significant differences in physiological and photosynthetic parameters (plant height, plant fresh and dry weight, leaf area, chlorophyll, and carotenoid content). Salinity and water stress had significant impacts on enzymatic and non-enzymatic contents such as superoxide dismutase (SOD), peroxide (POD), catalase (CAT), proline, malondialdehyde (MDA), total phenolic content (TPC) and total flavonoid content (TFC). It was concluded based on present findings that irrigation waters with a salinity level up to 5 dS/m could be used in pepper cultivation, but water deficits should be avoided. [ABSTRACT FROM AUTHOR]

Published

2024

10. Long-term potato response to different irrigation scheduling methods using saline water in an arid environment.

Author

El Mokh, Fathia, Nagaz, Kamel Nagaz, and Masmoudi, Mohamed Moncef

Subjects

SALINE irrigation, IRRIGATION scheduling, IRRIGATION farming, MICROIRRIGATION, IRRIGATION water

Abstract

Crops' water requirement is generally higher than the annual average precipitation in arid environments characterized by scarce freshwater resources. While using saline water for irrigation can help sustain agriculture in water-stressed regions, several challenges arises concerning productivity and soil salinization. However, adoption of efficient irrigation techniques such as drip irrigation, irrigation scheduling, and deficit irrigation can help optimize water productivity and mitigate salinity problems in irrigated agriculture. In southern Tunisia, potato is considered among the main cultivated horticultural crops due to its high economic value while it is considered as a crop sensitive to salinity. This crop (cv. Spunta) was the subject of long-term studies (2002-2020) conducted during the fall period in the arid region of Médenine. The crop response to full and deficit irrigation with saline water was assessed for several seasons under contrasting climatic conditions. Scheduling using the soil water balance (SWB) method consisted of the total and/or partial replacement of accumulated crop evapotranspiration (ETc), as derived from climatic data and crop coefficients. The impact of decreasing amounts of irrigation waters on crop yield and soil salinity with waters having a salinity ranging between 3 and 7 dS m-1 was evaluated. Results showed improvements in yield (30% to 37%) obtained with the SWB strategy under actual farming conditions, supporting the use of this strategy for irrigation. Appropriate scheduling also seems to be a key element in saving water (15%-22%) and in reducing risks of soil salinization. In the dry environment of southern Tunisia, optimum supply seems to correspond to a replacement of 100% to approximately 70%-80% of ETc. Applying such irrigation levels resulted in a lower salinity buildup in the root zone and higher crop water productivity. Natural salt leaching seems to be more effective under a more humid soil profile. Yield decreases and soil salinity increases almost linearly (r² = 0.60) with decreasing irrigation water amounts. Future work should focus on the integration of management practices when using saline water. Investigating the relationship and interaction between irrigation amounts, cultivar, fertilizer supply, and salt leaching will help in resolving productivity and environmental issues. [ABSTRACT FROM AUTHOR]

Published

2024

11. Green manuring–system of rice intensification–rice fallow pulses cropping system for enhancing the crop productivity and soil health: a sustainable farming solutions.

Author

Marimuthu, S., Gunasekaran, M., Raju, M., and Surendran, U.

Abstract

Rice cultivation in Tamil Nadu, a southern state of India, is a vital component of its agricultural landscape and economy. It holds historical significance and contributes significantly to the state's food security. Green manuring–system of rice intensification (SRI)–blackgram (rice fallow pulses) cropping system is novel, and this integrated system appears to be holistic and sustainable approach, combining innovative farming techniques to optimize yields, improve soil health, and minimize environmental impacts. To evaluate this, field demonstrations were conducted at a farmer's field through the National Pulses Research Centre, Vamban, Pudukkottai, Tamil Nadu, within the kharifrabi and summer seasons of 2019–20 under the Tamil Nadu Irrigated Agriculture Modernization project. The experimental site was medium deep clay with soil pH of 8.51, EC of 0.26 d S m−1, low in available nitrogen (212.02 kg ha−1), high in P2O5 (23.24 kg ha−1), and medium in K2O (300.46 kg ha−1). Initially, farmers were given the awareness about the improved production technologies (IPT), and then, demonstration was conducted in 50 hectares with 92 locations of Ponnaniyar sub-basin. The demonstration results showed that the improved practice of SRI recorded higher plant height and other yield attributes. Notably, the SRI cultivation method exhibited a range of yields from 7580 to 9400 kg ha−1 of rice across various locations, with the highest recorded at Avoor village. Concurrently, within the IPT framework for the GM–SRI–Rice fallow pulses cropping system, the recorded yields for Rice fallow Blackgram ranged from 590 to 730 kg ha−1. Comparative analysis indicated a remarkable 39.9 percent enhancement in system productivity through the adoption of IPT practices compared to conventional farmer practices. Moreover, the IPT framework showcased significantly higher water productivity, recording 0.7087 kg ha−1 m−3 compared to the conventional method, which yielded 0.2512 kg ha−1 m−3. Soil nutrient observations highlighted that these cropping systems positively impacted soil fertility parameters, compared to the initial available nutrient status. This augmentation in soil fertility could be attributed to the incorporation of green manures. Consequently, the green manure–system of rice intensification–rice fallow pulses crop sequences emerged as more productive and sustainable option, displaying the potential to enhance soil productivity and fertility status compared to conventional rice–blackgram/groundnut cropping sequences. These systems present promising alternatives for farmers within the Ponnaniyar sub-basin area of Tamil Nadu. [ABSTRACT FROM AUTHOR]

Published

2024

12. Economics of Water Scarcity and Efficiency.

Author

Barbier, Edward B. and Burgess, Joanne C.

Abstract

Over the coming decades, global freshwater withdrawals are expected to grow, especially in low- and middle-income countries. Unless there are significant improvements in the efficiency of water use by economies, freshwater stress, crises, and scarcity will worsen. This paper explores further the economic relationship between water use efficiency and scarcity. Because growing scarcity of freshwater in many regions and countries is not adequately reflected in markets, there are often insufficient incentives for investment and innovation to improve the efficiency of water use. To explore further changes in water use efficiency across countries, we conduct a panel analysis of water productivity changes for 130 countries from 1995 to 2020. Countries with lower initial levels of water use efficiency tended to have higher water productivity growth, whereas more agriculturally dependent economies displayed lower improvements in water use efficiency. Better institutional quality and capacity for innovation may also increase water use efficiency. We discuss the implications of these results for improving water use productivity in economies, and in particular, the opportunities and challenges for improving water markets and trades to alleviate water scarcity. We conclude by identifying further areas of research. [ABSTRACT FROM AUTHOR]

Published

2024

13. Irrigation During Flowering Is Critical for Enhancing Productivity and Economics of Late-Sown Indian Mustard Compared to other Management in the Arid Regions of Western India.

Author

Kumar, Pramod, Kumar, Suresh, Berkesia, Neelam, Kumar, Rohtas, Kumar, Sheilendra, Kalidas-Singh, Sagolshem, and Zhiipao, R. Rustum

Subjects

*BRASSICA juncea, *SEED yield, *ARID regions, *NUTRIENT uptake, *GLOBAL warming, *SOWING

Abstract

Global warming delays the harvest of kharif crops, which delay the subsequent sowing of Indian mustard, especially in northwestern India and also causes dry winters that exacerbate challenges for the timely sowing of rabi-crops. To check this, a field experiment was conducted during the Rabi-seasons of 2018–19 and 2019–20 to assess the influence of sowing dates, irrigation, and fertilizer levels under late-sown conditions. A split-plot design was used with two sowing dates, two irrigation levels and four fertilizer levels (87.5%, 100%, 112.5% and 125% RDF; Recommended-fertilizers-dose). Crop sown in the 4th week of November significantly reduced seed (46.79 and 38.77%) and stover yield (43.72 and 41.62%) as compared to the 2nd week of November sowing during 2018–19 and 2019–20, respectively. Uptake of NPK by seed and stover was higher with the 2nd week of November sowing. The 2nd week of November sowing resulted in significant increase in water productivity by 63.72% and Benefit cost ratio (B:C) by 75.45% over the 4th week of November sowing. Irrigation at flowering stage increased the seed yield, water productivity and B:C by 11.94%, 1.72% and 9.17%, respectively, as compared to No post-sown irrigation. The biological yield of the Indian mustard increased with every increase in fertilizer doses but the response was significant up to 112.5% RDF (90 kg N, 33.75 kg P2O5 and 22.5 kg K2O ha−1). Application of 112.5% RDF increased the seed, stover yield, water productivity and B:C by 16.17%, 9.29%, 15.66% and 11.27%, respectively, over 87.5% RDF. [ABSTRACT FROM AUTHOR]

Published

2024

14. Using a Triple Sensor Collocation Approach to Evaluate Small-Holder Irrigation Scheme Performances in Northern Ethiopia.

Author

Mohammedshum, Amina Abdelkadir, Maathuis, Ben H. P., Mannaerts, Chris M., and Teka, Daniel

Subjects

IRRIGATION farming, IRRIGATION water, CROP yields, WATER use, WATER consumption, IRRIGATION management

Abstract

This study uses a triple-sensor collocation approach to evaluate the performance of small-holder irrigation schemes in the Zamra catchment of Northern Ethiopia. Crop water productivity (CWP), as an integrator of biomass production and water use, was used to compare the overall efficiencies of three types of irrigation systems: traditional and modern diversions, and dam-based irrigation water supply. Farmer-reported data often rely on observations, which can introduce human estimation and measurement errors. As a result, the evaluation of irrigation scheme performance has frequently been insufficient to fully explain crop water productivity. To overcome the challenges of using one single estimation method, we used a triple-sensor collocation approach to evaluate the efficiency of three small-scale irrigation schemes, using water productivity as an indicator. It employed three independent methods: remotely sensed data, a model-based approach, and farmer in-situ estimates to assess crop yields and water consumption. To implement the triple collocation appraisal, we first applied three independent evaluation methods, i.e., remotely sensed, model-based, and farmer in-situ estimates of crop yields and water consumption, to assess the crop water productivities of the systems. Triple-sensor collocation allows for the appraisal and comparison of estimation errors of measurement sensor systems, and enables the ranking of the estimators by their quality to represent the de-facto unknown true value, in our case: crop yields, water use, and its ratio CWP, in small-holder irrigated agriculture. The study entailed four main components: (1) collecting in-situ information and data from small-holder farmers on crop yields and water use; (2) derivation of remote sensing-based CWP from the FAO WaPOR open database and time series; (3) evaluation of biomass, crop yields and water use (evapotranspiration) using the AquaCrop model, integrating climate, soil data, and irrigation management practices; (4) performing and analysis of a categorical triple collocation analysis of the independent estimator data and performance ranking of the three sensing and small-holder irrigation systems. Maize and vegetables were used as main crops during three consecutive irrigation seasons (2017/18, 2018/19, 2019/20). Civil war prevented further field surveying, in-situ research, and data collection. The results indicate that remote sensing products are performed best in the modern and dam irrigation schemes for maize. For vegetables, AquaCrop performed best in the dam irrigation scheme. [ABSTRACT FROM AUTHOR]

Published

2024

15. Are Water Use Efficiency and Effectiveness Relatively Lower in Arid Zones? Comparative Analyses of the Water Productivity of Typical Crops.

Author

Zhang, Yanfei, Long, Aihua, Zhang, Pei, Deng, Xiaoya, and Gu, Xinchen

Subjects

*WATER efficiency, *WATER use, *WATER shortages, *ARID regions, *WATER management

Abstract

Agriculture is the largest water user of all sectors. In arid regions in particular, achieving efficient water use in agriculture is an important way to solve water scarcity. However, the difference in water use efficiency between arid and humid regions has long been a focus of academic debate. Many studies consider water use efficiency to be higher in humid areas due to the abundance of water resources. This view is based on the fact that less irrigation in humid areas may lead to higher crop yields and better conditions for agricultural production; however, it ignores the efforts of researchers and agricultural workers in arid zones who have attempted to develop efficient water-saving technologies, as well as the effect of natural conditions on agricultural production. Correctly evaluating the efficiency of agricultural water use in arid zones is important for achieving efficient use of water resources, as well as for water management decisions. This study calculates the yield structure and water productivity of typical crops in both arid and humid regions in China based on the footprint theory and other methodologies. This approach allows for an accurate assessment of irrigation water benefits in various regions, providing a scientific basis for improving agricultural water use efficiency under different climatic conditions. The study results indicate that the average reliance on blue water for wheat and cotton gradually increases from 49.9% to 93.6% as regional aridity intensifies, ranging from the Central China Humid Region to the Northwest China Arid Region. Similarly, the average contribution of blue water to crop yield rises from 31.0% to 100%, while irrigation water productivity increases from 0.27 kg·m−3 to 0.53 kg·m−3. Finally, this study concludes that, in arid zones with lower precipitation and more hours of sunshine, a higher dependence on blue water for crop growth and development leads to a higher productivity of irrigation water. In addition, in arid zones, the focus should be on optimizing the use of irrigation water and improving irrigation technology and efficiency, while, in humid zones, there should be more use of natural precipitation to efficiently reduce dependence on irrigation water. [ABSTRACT FROM AUTHOR]

Published

2024

16. Impacts of Adding Porous Media and Phase Change Material on Performance of Solar Water Distiller System Under Iraq Climatic Condition: An Experimental Study.

Author

Basim, Mohammed A. and Alomar, Omar Rafae

Subjects

*POLYWATER, *WATER depth, *PARAFFIN wax, *GEOTHERMAL resources, *SOLAR stills, *WATER temperature

Abstract

This current investigation involves an experimental inspection of adding porous medium and phase change material (PCM) above the absorber surface to enhance the performance of a single slope and single basin solar water distiller system. To demonstrate the effectiveness of adding porous medium and PCM, the performance of the modified system and conventional system is compared under similar operating conditions. The system that uses porous medium and PCM is called MSS‐FPP, whereas the conventional system is called MSS‐F. Rectangular fins are fixed above the absorber plate for both models. For MSS‐FPP model, three different types of porous medium (stones, nuts, and black glass balls) are used in addition to paraffin wax filled inside circular tubes as a PCM. The data are collected in November and December 2023 in Mosul City, Iraq. The experiments are carried out under different water depths. The findings confirm that the performance of MSS‐FPP model is better than MSS‐F model by 41.32% (for water depth 3 cm) and 30.61% (for water depth 5 cm). The results also indicated that the water productivity of MSS‐FPP model is higher than MSS‐F model by 41.67% (for water depth 3 cm) and 30.65% (for water depth 5 cm). For MSS‐FPP model, the maximum water productivity and efficiency are obtained when using black glass balls as compared to nuts and stones types, where the highest water temperature and water productivity values are found equal 54°C and 1.01 kg/m2 for water depth 3 cm. The enhancement in the performance of modified solar water distiller system (MSS‐FPP) shows that using a porous medium and PCM has considerable impacts on the evaporation rate, heat exchange, and rate of heat transfer. [ABSTRACT FROM AUTHOR]

Published

2024

17. Potential Improvements in Crop Production in Egypt and Implications for Future Water and Land Demand.

Author

Ayyad, Saher, Karimi, Poolad, Ribbe, Lars, and Becker, Mathias

Subjects

*AGRICULTURAL productivity, *CROP improvement, *FOOD production, *CROP yields, *LAND resource

Abstract

Similar to numerous water- and data-scarce regions, Egypt confronts a critical challenge in sustaining food production for its rapidly growing population. Consequently, the country's water and land resources are under considerable stress and require careful management. About half of Egypt's both annually harvested areas and renewable freshwater are allocated for cultivating rice, maize, wheat, and berseem clover. However, the extent to which crop production might be improved and how this would impact future water and land requirements remains poorly understood. We analyzed potential improvements in the production of these crops and quantified their future water and land requirements under different scenarios. Potential improvements were detected through percentile analysis in three remote sensing-derived performance indicators for each crop in the Nile Delta's Zankalon region: (i) crop yield, (ii) crop water productivity, and (iii) transpiration fraction (transpiration to actual evapotranspiration, T/AET). We applied detected improvementsto construct plausible scenarios for Egypt's water and land requirements to sustain domestic crop production until 2050. Our findings indicate limited potential to improve T/AET (< 4%). However, improvements of up to 27% for crop yields and up to 14% for water productivity are possible. To meet the production targets by 2050, national production must increase by 128, 78, 69, and 71% above the 2016–2020's average for rice, maize, wheat, and berseem, respectively. Depending on the improvement levels in the developed scenarios, a total harvested land area between 5.3 and 6.4 million ha will be required by 2050, with 18% allocated to rice, 28% to maize, 36% to wheat, and 18% to berseem. Associated freshwater requirements will amount to 59–68 billion cubic meters, divided into 23% for rice, 34% for maize, 28% for wheat, and 15% for berseem. Interventions increasing yields and water productivity will benefit more the summer (rice and maize) than the winter crops (wheat and berseem). We discuss likely interventions for meeting these requirements and for sustaining the supply of these crops in Egypt. [ABSTRACT FROM AUTHOR]

Published

2024

18. Irrigation Scheduling and Nutrient Management in Green Gram Cultivation: An Evaluation of Yield and Water Productivity, Soil Water-Nutrient Dynamics, Energy Budgeting and Profitability.

Author

Patra, Sanmay Kumar, Poddar, Ratneswar, Sarkar, Arindam, Sen, Arup, Sengupta, Sudip, Kundu, Rajib, and Saha, Sushanta

Subjects

*IRRIGATION scheduling, *PRODUCTION scheduling, *SOIL dynamics, *FARM manure, *IRRIGATION water, *MUNG bean, *SEED yield, *COASTS

Abstract

Green gram is an excellent pulse crop with high economic and nutritional values. Optimal water and nutrient application can boost yield, water productivity, nutrient use, energy indices, and economic gains. The field experiment comprising three irrigation schedules (one irrigation at pre-flowering, two irrigations at pre-flowering and pod formation, and three irrigations at branching, pre-flowering and pod formation stages) and four nutrient management (control, 100% recommended fertilizer (RDF), farmyard manure at 5 t ha−1, and 100% RDF + FYM at 5 t ha−1) was arranged in a split-plot design with three replications during the summer seasons of 2016 and 2017. Based on the principal component analysis technique and economic assessment of all the treatments studied, three irrigations at branching, pre-flowering and pod formation stages with the recommended fertilizer plus FYM resulted in the maximum growth, yield components, seed yield (784 kg ha−1), stover yield (2288 kg ha−1), highest NPK uptake, total output energy, net energy gain, greatest gross return (USD 749.7 ha−1), net return (USD 331.7 ha−1) and higher BCR (1.79). However, maximum crop water productivity and irrigation water productivity (0.55 and 0.96 kg m−3, respectively) were recorded with a single irrigation at pre-flowering stage in tandem with full recommended fertilizer and farmyard manure. A linear relationship was detected between seed yield and seasonal crop evapotranspiration (ETc) at different nutritional levels. Seasonal water consumtion of 178 mm corresponding to an irrigation amount of 170 mm with a yield of 620 kg ha−1 and CWP of 0.36 kg m−3 was a balance for optimum seed yield, ETc and CWP. The 0–30 cm depth of the root zone profile contributed 80–84% while the 30–60 cm depth accounted for 16–20% of total soil moisture depletion. Based on the physical and financial outputs, a three-irrigation schedule coupled with the full recommended fertilizer and manure was identified as the best management strategy for green gram production and can thus be recommended to farmers of non-saline coastal soils in eastern India. [ABSTRACT FROM AUTHOR]

Published

2024

19. A New Perspective on Assessing the Real Water Savings Resulting from Irrigation Technology Interventions.

Author

Nazari, Bijan, Kanani, Elahe, and Sepehri, Saloome

Subjects

*WATER management, *IRRIGATION efficiency, *IRRIGATION, *SPRINKLER irrigation, *WATER shortages

Abstract

Poor water resource management is a major cause of water loss and exacerbates water shortages. In order to avoid some misconceptions and misunderstandings associated with irrigation efficiency, the term real water savings (RWS) has been introduced in contrast to apparent water savings (AWS). In this study, irrigation technology interventions were evaluated in terms of return flow and water saving in the Qazvin Plain irrigation network in Iran. This was accomplished using the REWAS tool developed by FAO to evaluate the effects of technological and management interventions on the RWS at the macro level (network, basin, etc.). According to the results, switching the irrigation system from furrow to center pivot with height-regulated sprinklers (Scenario A), center pivot with height-fixed sprinklers (Scenario B), linear-move irrigation system (Scenario C), and solid-set sprinkler irrigation (Scenario D), results in RWS of 390, 383, 326, and 331 mm, respectively. In turn, as a result of applying scenarios A, B, C, and D, the AWSs at the field scale were determined to be 90%, 88%, 75%, and 76%, respectively, while the RWS at the irrigation network scale was determined to be 19%, 19%, 17%, and 18%, respectively. Due to the influence of nonrecoverable return flows, the RWS is much lower than expected. In conclusion, the RWS can only be increased by preventing nonrecoverable return flows. The assessment of RWS can assist decision-makers in choosing sustainable interventions to improve agricultural water productivity by providing insight into field flows, irrigation networks, and basin scales. [ABSTRACT FROM AUTHOR]

Published

2024

20. Response of commercial classes of wheat to contrasting irrigation regimes.

Author

Ledesma-Ramírez, Lourdes, Solís-Moya, Ernesto, Mariscal-Amaro, Luis Antonio, Huerta-Espino, Julio, Montero-Tavera, Victor, Gámez-Vázquez, Alfredo Josué, Buenrostro-Rodríguez, Juan Francisco, and González-Figueroa, Sarahyt Santamaria

Subjects

IRRIGATION water, WATER efficiency, WATER use, IRRIGATION, WHEAT

Abstract

A 3-year experiment was established in which four wheat classes were evaluated including soft, medium hard, hard and durum wheat with the objective to determine which class is more efficient in water use under reduced irrigation. The experiments were established during three growing seasons (2016–2018). The amount of water applied were: 26, 34 and 54 cm distributed in 2, 3 and 5 irrigations, respectively. Eighteen genotypes from each wheat class were evaluated in an alpha lattice design with three replicates. Phenological data, yield and yield components were analyzed. Yield in the two-irrigation regime ranged from 3974 to 5436, 4453 to 6909 under three and 6177 to 9107 kg ha−1 under five. Correlation analysis showed that with two irrigations there is a greater association of grain yield with thousand kernel weight (TKW), but under three and five irrigations, grain yield was associated to a greater degree with kernel number per unit area (KNO). When analyzing the grain yield, it was observed that under reduced irrigation (2 and 3 irrigations), bread wheats were superior to durum wheats regardless of the class. Under five irrigations, durum wheats showed the highest yield (8303 kg ha−1); however, they were only significantly superior (Tukey ≤ 0.05) to the hard wheats (7721 kg ha−1). In general, the tested wheats showed higher water efficiency (considered as water productivity) under reduced irrigation than under normal irrigation. The lowest losses in water productivity when going from two to five irrigations were observed in durum wheats (0.17 kg m−3) and the highest losses in the hard wheats (0.38 kg m−3). [ABSTRACT FROM AUTHOR]

Published

2024

21. Optimizing yield and water productivity in summer mung bean (Vigna radiata L.) through crop residue management and irrigation strategies

Author

Saurabh Tripathi, Anureet Kaur, Ajmer Singh Brar, Karamjit Singh Sekhon, Sukhpreet Singh, Anurag Malik, and Ozgur Kisi

Subjects

Summer mung bean, Crop residue management, Irrigation regimes, Grain yield, Water productivity, Botany, QK1-989

Abstract

Abstract A multi-season research trial entitled ‘crop residue management effects on yield and water productivity of summer mung bean (Vigna radiata L.) under different irrigation regimes in Indian Punjab’ was conducted at Punjab Agricultural University (PAU), Regional Research Station (RRS), Bathinda, during rabi 2020 and 2021. The field experiment was conducted in a split-plot layout with nine treatment combinations and replicated thrice. The treatments consisted of T1 (no wheat residue along with tillage), T2 (leftover wheat residue with zero tillage), and T3 (incorporated wheat residue along with tillage) in main plots and irrigation regimes viz., I1 (vegetative growth and flowering stage), I2 (vegetative growth, flowering, and pod filling stage) and I3 (vegetative growth, flowering, pod formation and pod filling stage) in sub-plots, respectively. The growth and yield attributing characters were significantly higher under T3 than T1 but statistically at par with T2 during both years. An increase of 24.1% and 19.0% in grain yield was found in residue incorporation (T3) and residue retention (T2) over residue removal (T1), respectively. Maximum crop and irrigation water productivity was observed under T3 due to reduced water use and increased yield. Among the irrigation regimes, the I3 recorded significantly higher grain yield (0.70 and 0.79 t ha− 1) than I1. It was at par with I2 during both years due to higher irrigation frequency at the pod formation and pod filling stage. Crop water productivity (CWP) was higher under I3, whereas irrigation water productivity (IWP) was higher under I1 during both years. Additional irrigation at the pod-filling stage increased the grain yield by 36.5%, and two additional irrigations at the pod-formation and pod-filling stage further increased yield by 46.2% compared to only two irrigations at the vegetative and flowering stages. The treatment combinations of T2I2 and T3I2 outperformed T1I3 in terms of growth and yield attributing characters viz. plant height, dry matter accumulation (DMA), leaf area index (LAI), pods plant− 1, seeds pod− 1, and 1000-seed weight, which resulted in higher grain yield in these treatment combinations over T1I3. Applying crop residue can help minimize water use and increase crop water productivity. So, retaining crop residue in summer mung bean resulted in saving irrigation water due to lesser evapotranspiration from the soil surface.

Published

2024

22. Water-nitrogen Managements for Spring Maize at Tuquan, Inner Mongolia Based on APSIM

Author

Guo Erjing, Yang Feiyun, Wu Lu, Sun Shuang, Gao Jiabao, Zhang Chaoqun, and Zhang Ling

Subjects

spring maize, yield, water productivity, agronomic efficiency of applied nitrogen, water-nitrogen management, Meteorology. Climatology, QC851-999

Abstract

Water and nitrogen are critical factors that constrain the sustainable production of dryland agriculture. With increasingly severe crisis of water and nitrogen resources and environment, exploring and optimizing water-nitrogen managements, and hence achieving coordinated and unified resource conservation, high and stable grain production, and high efficiency are of great significance for agricultural development. Key parameters of APSIM (agricultural production system simulator) are calibrated and validated based on spring maize phenology, yield, and field management data from Tuquan, Inner Mongolia Autonomous Region from 2013 to 2022. Combined with meteorological data from 1981 to 2022 at Tuquan, water-nitrogen management scenarios are designed under different water deficit levels. Optimal water-nitrogen managements for spring maize at Tuquan are proposed based on indicators including spring maize yield, irrigation amount, nitrogen application amount, water productivity, and agronomic efficiency of applied nitrogen. Furthermore, the suitable irrigation and nitrogen application amounts for spring maize under different precipitation year types are analyzed. Results show that normalized root mean squared errors of the simulated and observed days from emergence to flowering, days from emergence to maturity, and yield of spring maize are 1.3%, 1.2% and 2.8%, respectively. APSIM can quantitatively simulate the growth period and yield of spring maize. Based on the principle that yield, water productivity, and agronomic efficiency of applied nitrogen of spring maize do not significantly decrease compared to the maximum values of all scenarios, and irrigation and nitrogen application amounts do not significantly increase compared to the minimum values of all scenarios, four management measures with no significant differences can be selected, namely, starting automatic irrigation when water deficit reaches 40%, 50%, 60% at the depth of 0-100 cm, and when the water deficit reaches 60% at the depth of 0-60 cm. Among them, the optimal auto-irrigation management for spring maize at Tuquan is to apply irrigation when the water deficit reaches 60% at the depth of 0-100 cm. In this scenario, the irrigation amount is 171.0 mm, and the nitrogen application amount is 197.8 kg·hm-2. When the precipitation during the spring maize growing season is 200-400 mm, the appropriate irrigation amount is 233.0-283.5 mm, and the nitrogen application amount is 176.9-219.3 kg·hm-2. When the precipitation during the spring maize growing season is 401-600 mm, the appropriate irrigation amount is 110.5-148.4 mm, and the nitrogen application amount is 218.3-241.5 kg·hm-2, respectively. When the precipitation during the spring maize growing season is 601-800 mm, the suitable irrigation amount is 125.0-155.0 mm, and the nitrogen application amount is 211.8-249.9 kg·hm-2. This study provides a quantitative reference for utilizing crop mechanism models in real-time monitoring, diagnosis, and precise management of crop water and nitrogen.

Published

2024

23. Influence of different levels of drip fertigation and mulching on growth, yield, water productivity and nutrient uptake of pigeonpea (Cajanus cajan L.)

Author

Kumar, Sunil, Seenappa, C., Madam, Vikramarjun, and Anand, M.R.

Published

2024

24. Effect of Mulches on Crop, Soil and Water Productivity: A Review

Author

Verma, Sudhanshu and Pradhan, Swati Swayamprabha

Published

2024

25. Determining an appropriate integrated nutrition system for saffron (Crocus sativus L.) cultivation as affected by maternal corm weight

Author

Ahmad Ahmadian, Nazanin Nazari, and Yaser Esmaeilian

Subjects

corm indices, fertilization, flower indices, stigma, water productivity, Agriculture

Abstract

Purpose: The aim of this study was to determine the response of saffron (Crocus sativus L.) to nutrient resources and maternal corm weights. Research method: The experiment was conducted as a split-plot based on a randomized complete block design with three replications. The main plots included four integrated nutrition programs (NP0: control (without fertilization); NP1: cow manure, amino acids, humic acid; NP2: slaughterhouse waste, mono-potassium phosphate, humic acid, mix (macro-micro) fertilizer; and NP3: poultry manure, ammonium nitrate, humic acid, amino acid, hormone biofertilizer, NP fertilizer, micronutrients) and the subplots included three maternal corm weights (CW1: 4-8, CW2: 8-12, and CW3: 12-16 g). Findings: The difference between the experimental treatments in terms of the effect on the studied traits of saffron was more significant in the second year than in the first year of the experiment. The NP3 treatment resulted in the highest values of the flower number (85.6), fresh and dry flower yield (28.21 and 5.48 g m-2, respectively), and fresh and dry stigma yield (3.35 and 0.67 g m-2, respectively). Also, planting the heaviest corms led to the highest values of the mentioned traits (79.9, 24.57, 4.85, 2.90, and 0.58 g m-2, respectively). The highest value of corm number (312.1), corm diameter (4.27 cm), corm weight (6.86 g), and corm yield (1562.4 g m-2) belonged to the NP3 treatment. The CW3 treatment obtained the highest values of the mentioned traits (322.7, 3.72 cm, 6.87 g, and 1476.5 g m-2, respectively). Furthermore, the highest dry stigma water productivity (1.942 g m-3) and corm water productivity (4.45 kg m-3) were found under the NP3 treatment. Also, the highest value of the mentioned traits (1.681 g m-3 and 4.18 kg m-3, respectively) was recorded in the CW3 treatment. Research limitations: No limitations were identified. Originality/Value: The results of this research clearly show the profound importance of the characteristics of the maternal corms and the integrated nutrition in changes in saffron yield. Overall, we conclude that the NP3CW3 treatment is the best treatment for obtaining the highest values of saffron flower and corm indices as well as the stigma and corm water productivity.

Published

2024

26. Impact of pulsed drip irrigation and organo-mineral N-fertilization on improving sandy soil properties and limon production

Author

Abdelraouf R. E., Mustafa H. Hashem, Moussa A. M., Ghanem H. G., Bakr B. M. M., Hany Mostafa, and Ahlam S. Allam

Subjects

Pulse irrigation, lemon productivity, water productivity, organo-mineral N fertilization, climate change, Hydraulic engineering, TC1-978, Environmental technology. Sanitary engineering, TD1-1066

Abstract

The depletion of water resources has intensified with the evolving global climate change, leading to increased demands for water requirements in agricultural practices. In addressing these challenges, our consideration has centered on the implementation of environmentally friendly technologies. Lemon yields are diminishing due to the effects of severe climate change. To counter this decline, farmers resort to the application of nitrogen fertilizers in an attempt to boost yields. Nevertheless, the excessive use of nitrogen fertilizers has adverse effects on both plants and the environment. Therefore, two field experiments were carried out during the years 2021 and 2022 at the experimental farm (in the Nubaria region, Egypt) to examine the effects of two irrigation methods [conventional drip irrigation and pulse drip irrigation] and integrated nitrogen fertilization [five organo-mineral N fertilization rates OMN: OMN1 (100% mineral N + 0% organic N), OMN2 (75% MN + 25% ON), OMN3 (50% MN + 50% ON), OMN4 (25% MN + 75% ON), and OMN5 (0% MN + 100% ON)] on water productivity, lemon productivity, and fruit quality. In arid conditions, soil organic matter content, soil microorganisms activity, soil pH, water application efficiency, water stress inside the root zone, lemon productivity (LP), lemon water productivity (WPLemon), and lemon fruit quality were examined. The findings showed that the pulse drip irrigation approach improved LP, WPLemon, vitamin C, and lemon’s total soluble solids. The results also showed how integrated N-fertilization was important for increasing the proportion of organic component addition. Our findings suggested that applying pulsed drip irrigation coupled with integrating N-fertilization boosted water productivity, lemon productivity, and fruit quality. The highest outcomes were achieved when using pulse drip irrigation and 50% organic N + 50% mineral N-fertilizers.

Published

2024

27. Harnessing rain hose technology for water-saving sustainable irrigation and enhancing blackgram productivity in garden land

Author

S. Marimuthu, S. Vallal Kannan, S. Pazhanivelan, V. Geethalakshmi, M. Raju, A. P. Sivamurugan, M. Karthikeyan, V. M. Byrareddy, S. Mushtaq, and U. Surendran

Subjects

Blackgram, Rain hose irrigation, Soil moisture, Yield, Water productivity, Water use efficiency, Medicine, Science

Abstract

Abstract Blackgram, a protein-rich pulse crop (24%), is crucial for combating food insecurity, particularly in malnourished and economically weak countries. Enhancing blackgram production requires improved, input-saving management practices. Given the challenges of climate change and population growth, efficient water management is vital for increasing pulse productivity and water use efficiency with minimal investment. This study aimed to identify cost-effective irrigation methods to optimise blackgram yields. Experiments were conducted at the National Pulses Research Centre in Vamban, Pudukkottai, and the Agricultural College and Research Institute in Kumulur, Tiruchirappalli, during the kharif season of 2021 and 2022. The study compared different treatments of irrigation methods, such as check basin, raised bed, drip, sprinkler and rain hose irrigation. Results showed that the rain hose system maintained the highest soil moisture (23.93% at 10 cm depth and 19.71% at 20 cm depth). Even though drip irrigation resulted in a higher seed yield (1363 kg ha−1), the rain hose system proved to be more cost-effective, saving 27.09% in costs and achieving a 15.23% higher benefit–cost ratio. These findings suggest that the rain hose method, combined with current agronomic practices, is a viable low-cost technique for sustainable blackgram cultivation, optimising water use and maximising profits. This research provides valuable insights into water-saving irrigation methods for pulse crops.

Published

2024

28. Assessment of the AquaCrop model to simulate the impact of soil fertility management on evapotranspiration, yield, and water productivity of maize (Zea May L.) in the sub-humid agro-ecology of Nigeria

Author

Omotayo B. Adeboye, Bart Schultz, Amaka P. Adeboye, Abebe Chukalla, and Kabiru A. Shittu

Subjects

Maize, AquaCrop, NPK, Modelling, Water productivity, Agriculture (General), S1-972, Environmental sciences, GE1-350

Abstract

Abstract Field experiments were conducted for two seasons in Ile-Ife, Nigeria to evaluate the performance of the AquaCrop model in simulating the effects of soil fertility management on the canopy cover (CC), soil water storages (SWS), cumulative aboveground biomass (BM), evapotranspiration (ET a ), grain yields, and water productivity (WP) of rainfed maize. Six levels of soil fertility management and two cultivars of maize, SUWAN 1-SR and PVA led to a 2 by 6 factorial experimental treatment and arranged in a randomized complete block design. Agronomic and environmental parameters were measured for two consecutive seasons. The AquaCrop model was calibrated using data from the wetter year. The AquaCrop model captured well the variances in the CC, R 2 ≥ 0.88, RMSE ≤ 14.2, and d-index ≥ 0.97 under full and stressed soil fertility. Although the AquaCrop model over and underestimated SWS, it is still within acceptable limits. The model simulated SWS well, R 2 ≥ 0.71, EF ≥ 0.97, and d-index ≥ 0.97. AquaCrop tends to underestimate ET a under rainfall and NPK variabilities. The AquaCrop model simulated grain yields excellently, R 2 = 0.99, b = 1.00. The 150% of the recommended NPK application is suitable for the desired improvement in land and water productivity of the crop. The AquaCrop model predicted and captured the trends in the yields and water productivity of maize adequately under varying NPK applications. Further research is required on other cultivars of the crop and locations in the area in order to generalize the adequacy of the model.

Published

2024

29. Harnessing rain hose technology for water-saving sustainable irrigation and enhancing blackgram productivity in garden land.

Author

Marimuthu, S., Kannan, S. Vallal, Pazhanivelan, S., Geethalakshmi, V., Raju, M., Sivamurugan, A. P., Karthikeyan, M., Byrareddy, V. M., Mushtaq, S., and Surendran, U.

Subjects

*WATER efficiency, *MICROIRRIGATION, *RAINFALL, *LEGUMES, *CLIMATE change

Abstract

Blackgram, a protein-rich pulse crop (24%), is crucial for combating food insecurity, particularly in malnourished and economically weak countries. Enhancing blackgram production requires improved, input-saving management practices. Given the challenges of climate change and population growth, efficient water management is vital for increasing pulse productivity and water use efficiency with minimal investment. This study aimed to identify cost-effective irrigation methods to optimise blackgram yields. Experiments were conducted at the National Pulses Research Centre in Vamban, Pudukkottai, and the Agricultural College and Research Institute in Kumulur, Tiruchirappalli, during the kharif season of 2021 and 2022. The study compared different treatments of irrigation methods, such as check basin, raised bed, drip, sprinkler and rain hose irrigation. Results showed that the rain hose system maintained the highest soil moisture (23.93% at 10 cm depth and 19.71% at 20 cm depth). Even though drip irrigation resulted in a higher seed yield (1363 kg ha−1), the rain hose system proved to be more cost-effective, saving 27.09% in costs and achieving a 15.23% higher benefit–cost ratio. These findings suggest that the rain hose method, combined with current agronomic practices, is a viable low-cost technique for sustainable blackgram cultivation, optimising water use and maximising profits. This research provides valuable insights into water-saving irrigation methods for pulse crops. [ABSTRACT FROM AUTHOR]

Published

2024

30. Evaluating the Performance of Alternate Wetting and Drying Irrigation Technology: An On-farm Rice Case Study in An Giang Province, the Mekong Delta of Vietnam.

Author

Nha Van Duong, Van Huynh Thanh Pham, Hue Thi Le, Sang Thanh Nguyen, and Duc Ngoc Huynh

Subjects

*WATER consumption, *WATER use, *PLANT growth, *CHLOROPHYLL, *IRRIGATION

Abstract

Alternate wetting and drying irrigation (AWD) is a promising technique that has been tried across Southeast Asia to reduce water consumption and methane emissions in irrigated rice cultivation. The study conducted in the upper Vietnamese Mekong Delta compared the effectiveness of plant growth, yield components, and yield under three different water application regimes: the treatments of community AWD (AWD_C), household individually (AWD_H), and continuous flooding (CF) with the expectation to explore the ability to use water effectively in rice cultivation. The results showed no significant difference in water use between the three treatments. However, there was a considerable difference in coefficient of variation value (CV); the CV value of the water column in the AWD_C (1.32%) was a significant difference from that of AWD_H (0.87%) and CF (0.89%). The mean chlorophyll content, the yield, and the weight of 1,000 grains of the AWD_H treatment were significantly higher than that of the other two treatments. In another aspect, the water productivity of the AWD_H treatment was the highest (0.66 kg/m3), a statistically significant difference compared to the AWD_C and CF (0.37; 0.33 kg/m3). In conclusion, the AWD_H shows efficiency in leaf chlorophyll content, 1,000-grain weight, yield, and water productivity. The AWD_C is inferior to the AWD_H due to the large variation of field elevation. It is noted that field elevation is critical to the technique's success in being applied on a large scale. [ABSTRACT FROM AUTHOR]

Published

2024

31. Effect of Different Fertigation Scheduling Methods on the Yields and Photosynthetic Parameters of Drip-Fertigated Chinese Chive (Allium tuberosum) Grown in a Horticultural Greenhouse.

Author

Nomura, Koichi, Wada, Eriko, Saito, Masahiko, Itokawa, Shuji, Mizobuchi, Keisuke, Yamasaki, Hiromi, Tada, Ikunao, Iwao, Tadashige, Yamazaki, Tomihiro, and Kitano, Masaharu

Subjects

ELECTRIC conductivity of soils, FERTIGATION, ALLIUM, IRRIGATION water, SOIL moisture

Abstract

This study investigated the performance of four different fertigation scheduling methods in greenhouse-grown, drip-fertigated Chinese chive (Allium tuberosum) cultivation. These methods were based on (1) the use of a timer (control), (2) accumulated radiation (AR), (3) estimated evapotranspiration (ET), and (4) measured soil moisture (SM), with fertilizer application proportional to the supplied water. These methods caused considerable variations in the amount of fertigation water (I), soil volumetric water content (θ), and bulk soil electrical conductivity, leading to variations in the harvested fresh weight (FW). The SM-based method maintained the target θ and achieved the highest irrigation water productivity (WP; the ratio of FW to ΣI), while the ET-based method led to insufficient I and FW loss. The AR-based method over-fertigated, but no FW loss was observed. Compared to the WP of the control, those of the SM-, ET-, and AR-based methods varied by +1%, −14%, and −57%, respectively. Different fertigation methods did not significantly affect leaf photosynthetic capacity, but under-fertigation caused a significant decline in stomatal conductance. Compared to the ET- and AR-based methods, the SM-based method seemed to have a lower risk of under-/over-fertigation because I in the SM-based method could be adjusted according to θ. [ABSTRACT FROM AUTHOR]

Published

2024

32. Effect of mulch on maize (Zea maize L.) yield and water productivity under different methods of irrigation.

Author

Kahlon, M. S. and Dhingra, Madhu

Subjects

MULCHING, CORN yields, MICROIRRIGATION, FURROW irrigation, CROP yields, CORNCOBS, GRAIN weights & measures

Abstract

The article examines the effect of mulch on maize yield and water productivity under different methods of irrigation. The field experiment tested drip irrigation, furrow irrigation and flood irrigation under mulch and un-mulch conditions and recorded the maximum and minimum plant height, maximum maize grain weight, crop yield, water productivity, maize cob size, cob weight, leaf area index and number of grain per cob.

Published

2024

33. Organic Fraction Municipal Solid Waste Compost and Horse Bean Green Manure Improve Sustainability of a Top-Quality Tobacco Cropping System: The Beneficial Effects on Soil and Plants.

Author

Sifola, Maria Isabella, Cozzolino, Eugenio, Todisco, Daniele, Palladino, Mario, Sicignano, Mariarosaria, and del Piano, Luisa

Abstract

Organic amendment and green manuring are two agricultural practices highly recommended to improve sustainability in agriculture since they show numerous beneficial effects on both soils and crops. The main aim of the present study was to evaluate the effect of both, specifically organic fraction municipal solid waste (OFMSW) compost and horse bean (Vicia faba L., cv minor) green manure, combined separately or together with a mineral fertilization using synthetic products and in comparison with a mineral fertilization alone (control), on a top-quality tobacco crop (dark fire-cured Kentucky) grown in the cultivation district of Central Italy (High Tiber Valley, Tuscany region) in 2020 and 2021. The following parameters were measured: (i) leaf emergence rate (LER, leaves day−1); (ii) crop growth rate (CGR, kg dry biomass ha−1 day−1); (iii) root weight density (RWD, mg cm−3); (iv) yield of cured product (CLY, Mg ha−1). Analytical determinations were carried out on soil, sampled at the 0–0.3 m depth (organic matter, %; total N, %; NO3-N, mg kg−1; C/N; P and K, mg kg−1), and on plant biomass (total N, %; NO3-N, kg ha−1). Soil water retention measures were also made. Water productivity (WP, kg cured product m−3 gross crop evapotranspiration, ETc gross), irrigation water use efficiency (IWUE, kg cured product m−3 seasonal irrigation volume) and N agronomic efficiency (NAE, kg cured product kg−1 mineral N applied by synthetic fertilizers) were calculated. Both the applications of OFMSW compost and horse bean green manure increased soil content of organic matter and main nutrients (N, P and K), as well as C/N, when compared with control conditions. There was an increase in soil water content in C conditions over the entire soil matric potential interval (0.04 to 1.2 MPa) with a maximum value at 1.2 MPa in both years. Both practices appeared promising for tobacco cultivation and could help to better address the nitrogen needs of the crop during the season and reduce potential water pollution due to nitrates. Considering the amount of synthetic nitrogen fertilizer saved by using both organic soil amendment and green manuring, there should be fewer potential carbon emissions due to the production, transportation and field application of synthetic nitrogen fertilizers. [ABSTRACT FROM AUTHOR]

Published

2024

34. Exploring the Water–Soil–Crop Dynamic Process and Water Use Efficiency of Typical Irrigation Units in the Agro-Pastoral Ecotone of Northern China.

Author

Wang, Guoshuai, Miao, Xiangyang, Xu, Bing, Tian, Delong, Ren, Jie, Li, Zekun, Li, Ruiping, Zheng, Hexiang, Wang, Jun, Tang, Pengcheng, Feng, Yayang, Zhou, Jie, and Xu, Zhiwei

Subjects

WATER efficiency, WATER resources development, AGRICULTURAL development, ANIMAL culture, IRRIGATION efficiency, DRY farming, SUNFLOWERS, POTATOES

Abstract

Groundwater resources serve as the primary source of water in the agro-pastoral ecotone of northern China, where scarcity of water resources constrains the development of agriculture and animal husbandry. As a typical rainfed agricultural area, the agro-pastoral ecotone in Inner Mongolia is entirely dependent on groundwater for agricultural irrigation. Due to the substantial groundwater consumption of irrigated farmland, groundwater levels have been progressively declining. To obtain a sustainable irrigation pattern that significantly conserves water, this study faces the challenge of unclear water transport relationships among water, soil, and crops, undefined water cycle mechanism in typical irrigation units, and water use efficiency, which was not assessed. Therefore, this paper, based on in situ experimental observations and daily meteorological data in 2022–2023, utilized the DSSAT model to explore the growth processes of potato, oat, alfalfa, and sunflower, the soil water dynamics, the water balance, and water use efficiency, analyzed over a typical irrigation area. The results indicated that the simulation accuracy of the DSSAT model was ARE < 10%, nRMSE/% < 10%, and R2 ≥ 0.85. The consumption of the soil moisture during the rapid growth stage for the potatoes, oats, alfalfa, and sunflower was 7–13% more than that during the other periods, and the yield was 67,170, 3345, 6529, and 4020 kg/ha, respectively. The soil evaporation of oat, potato, alfalfa, and sunflower accounted for 18–22%, 78–82%; 57–68%, and 32–43%, and transpiration accounted for 40–44%, 56–60%, 45–47%, and 53–55% of ETa (333.8 mm–369.2 mm, 375.2 mm–414.2 mm, 415.7 mm–453.7 mm, and 355.0 mm–385.6 mm), respectively. It was advised that irrigation water could be appropriately reduced to decrease ineffective water consumption. The water use efficiency and irrigation water use efficiency for potatoes was at the maximum amount, ranging from 16.22 to 16.62 kg/m3 and 8.61 to 10.81 kg/m3, respectively, followed by alfalfa, sunflowers, and oats. For the perspective of water productivity, it was recommended that potatoes could be extensively cultivated, alfalfa planted appropriately, and oats and sunflowers planted less. The findings of this study provided a theoretical basis for efficient water resource use in the agro-pastoral ecotone of Northern China. [ABSTRACT FROM AUTHOR]

Published

2024

35. Effect of Silicon Application Method on Morpho-Physio-Biochemical Traits of Cucumber Plants under Drought Stress.

Author

Alam, Akhter Ul, Ullah, Hayat, Himanshu, Sushil Kumar, Tisarum, Rujira, Praseartkul, Patchara, Cha-um, Suriyan, and Datta, Avishek

Abstract

Drought, one of the most frequent natural disasters, is a devastating abiotic stress that arises unpredictably, develops gradually, and carries long-lasting repercussions even after it ceases. The duration and severity of drought markedly impact plant growth, development, and yield by disrupting normal morpho-physio-biochemical processes. Silicon (Si) is regarded as a crucial element for mitigating the detrimental effects of abiotic stress, including drought. The objective of this study was to evaluate the effect of Si application method on morpho-physio-biochemical traits of cucumber plants under drought stress. Two independent polyhouse experiments were conducted where cucumber (Cucumis sativus L.) plants were grown under four levels of soil moisture that included 40%, 60%, 80%, and 100% field capacity (FC) and Si was applied either in the form of seed priming (Experiment 1) or as soil drench (Experiment 2). For the seed priming study, four doses of Si (in the form of monosilicic acid with 20% Si content) applied were 0.25, 0.5, 1.0, and 2.0 mM along with a control in which seeds were sown directly without any priming. For the soil application study, four doses of Si (in the form of monosilicic acid with 20% Si content) applied were 15, 30, 60, and 120 kg ha–1 along with a control. The minimal soil moisture level (40% FC) resulted in 55–68% and 53–76% reduction in root dry matter in Experiment 1 and Experiment 2, respectively, in comparison to that at 100% FC throughout Si doses. Fruit yield, irrigation water productivity, and net photosynthetic rate exhibited a respective reduction of 77–84% and 78–84%, 25–52% and 13–47%, and 37–46% and 26–33% in Experiment 1 and Experiment 2, respectively, at 40% FC than those at 100% FC throughout Si doses. The exogenous application of Si was equally efficient irrespective of application methods. Seed priming with 0.5 mM Si outperformed all other doses and resulted in an increase of 199–284%, 169–263%, and 20–59% in fruit yield, irrigation water productivity, and net photosynthetic rate, respectively, in comparison to the control throughout soil moisture levels. Among different soil application doses of Si, 60 kg ha–1 was the most efficient, which resulted in 217–293%, 198–307%, and 11–33% enhancement in fruit yield, irrigation water productivity, and net photosynthetic rate, respectively, in comparison to the control throughout soil moisture levels. Exogenous incorporation of Si as seed priming at 0.5 mM and as soil drench at 60 kg ha–1 is recommended for cucumber cultivation in drought-affected areas. [ABSTRACT FROM AUTHOR]

Published

2024

36. Responses of Soil Water, Temperature, and Yield of Apple Orchard to Straw Mulching and Supplemental Irrigation on China's Loess Plateau.

Author

Yang, Yuxin, Yin, Mengqi, and Guan, Hongjie

Subjects

*MICROIRRIGATION, *IRRIGATION water, *SOIL temperature, *SOIL moisture, *WATER temperature, *APPLE orchards

Abstract

The combination effect of straw mulching and supplemental irrigation on the soil water and heat, and the growth and productivity of mature apple trees on the Loess Plateau of China remains unclear. Field experiments were conducted in 2022 and 2023 to evaluate the combined effect of straw mulching and supplemental irrigation (two irrigation types, ring and double-row drip irrigation, and three irrigation levels: high, medium, and low irrigation level) on the soil water and temperature, growth, yield, and water productivity (WP) of a mature apple orchard. Local rainfed cultivation was used as the control (CK). The results showed that straw mulching increased soil moisture by 2.4–6.5% compared to the CK treatment. Supplemental irrigation significantly increased soil moisture in the 0–60 cm layer by 3.0–8.1%, and its effect increased with an increasing irrigation level. Straw mulching significantly reduced soil temperature by 7.8% compared to the CK treatment. Supplemental irrigation significantly increased the new shoot length and stem thickness of apple trees. Under straw mulching, a medium supplemental irrigation level significantly increased both apple yield and WP compared to the CK treatment. In this study area, it is recommended to choose a combination of straw mulching and a medium supplemental irrigation level. [ABSTRACT FROM AUTHOR]

Published

2024

37. Effect of Raised Flat Bed and Ridge Planting on Wheat Crop Growth and Yield under Varying Soil Moisture Depletions.

Author

Tang, Lingdi, Shaikh, Irfan Ahmed, Tunio, Anees, Junejo, Abdul Rahim, Hao, Li, Dahri, Jahangeer, Mangrio, Munir Ahmed, Soothar, Rajesh Kumar, and Khan, Zaheer Ahmed

Subjects

*WATER efficiency, *WHEAT farming, *PLANT populations, *WHEAT, DEVELOPING countries

Abstract

Crop yields remain significantly low in underdeveloped countries, such as Pakistan, primarily due to the prevalent use of traditional farming methods by most farmers. Resource-saving strategies, like ridge and raised flat bed systems, could boost water use efficiency and production per acre. However, further research is needed to investigate the effectiveness of these methods, along with different levels of soil moisture depletion (SMD), on wheat development in the climatic conditions of Sindh Province. Thus, field trials were undertaken at Sindh Agriculture University's Tandojam for two years (2022 and 2023) during the wheat growing seasons. The experiment included six treatments, viz., T1 (raised flat bed method under 40% depletion), T2 (ridge method under 40% depletion), T3 (raised flat bed method under 50% depletion), T4 (ridge method under 50% depletion), T5 (raised flat bed method under 60% depletion), and T6 (ridge method under 60% depletion). The bed planter was employed to make raised flat beds, and the ridges were prepared using a ridge planter. Wheat variety (TJ-83) was sown. Under all treatments, the plant population, plant height, and seed index were statistically significant (p < 0.05), although spike length, grain spikes−1, and grain weight spikes−1 were non-significant at different SMD levels. To compute water saving through the ridge and raised flat methods, the recommended delta value for wheat crops under the traditional method was used as a benchmark. Both irrigation technologies conserve water compared to traditional irrigation methods. The T5 treatment conserved the most water, followed by T6. Under a 60% depletion level, the ridge approach produced the highest yield of 2175 kg ha−1, compared to 601 kg ha−1 with the raised flat bed method. The best crop water productivity (CWP) of 1.34 kg m−3 was achieved under T6, whereas raised flat beds attained the lowest CWP of 0.27 kg m−3 under T1. In terms of wheat grain production and CWP, the ridge furrow method outperformed the raised flat bed furrow method. Based on the results, it is recommended that farmers should use the ridge furrow method and allow a 60% depletion of soil moisture to obtain a high yield of wheat crops. [ABSTRACT FROM AUTHOR]

Published

2024

38. Assessing cotton irrigation scheduling strategies under rotational delivery schedules in Pakistan.

Author

Sajid, Imran, Tischbein, Bernhard, Borgemeister, Christian, García-Vila, Margarita, Bakhsh, Allah, and Flörke, Martina

Subjects

WATER distribution, IRRIGATION farming, WATER management, WATER use, FARM size, IRRIGATION scheduling

Abstract

In Punjab, Pakistan, the "Warabandi" principle guides the distribution of surface water in tertiary canal networks to each farm. The allocated amount is proportional to farm size and provided according to a predetermined schedules in a 7-day fixed rotation. Limited canal water and rigid rotations of the Warabandi-guided water allocation led to unsustainable pumping of groundwater and relatively low field application efficiency. Using both site monitoring and modelling, we assessed cotton irrigation scheduling under current practices and the planning options in the context of the Warabandi principle. The farming practices of two raised-bed furrow cotton fields were intensively monitored at the Mungi distributary canal command area in Punjab. The AquaCrop model was parameterized and validated using 2019 and 2020 datasets and then applied to assess four irrigation scheduling scenarios. Scenario 1 reflects the current irrigation practice under canal water and groundwater use, while for scenarios 2, 3, and 4, solely canal water was considered and irrigation followed a fixed rotation of 7-days, 14-days, and targeted intervals, respectively. According to simulations' outputs, scenarios 2, 3, and 4 resulted in better performance compared to the current practices in both fields by reducing percolation substantially up to 90% below the root zone and lowered soil evaporation by up to 27% enebling similar yields ∼2.2 ton/ha raw cotton and higher water productivity. Under the frame conditions of Warabandi, scenario 4 was a promising option for introducing more flexible and demand-oriented irrigation at the farm level targeting cotton's water-stress sensitive growth stages by adapting irrigation application to rainfall events and refilling the soil slightly below field capacity level during each irrigation event to reduce percolation. The study delivered detailed information about cotton irrigation scheduling for on-farm water management, considering a bottom-up approach in Punjab. [ABSTRACT FROM AUTHOR]

Published

2024

39. Irrigation and Agricultural Opportunities: Evaluating Hemp (Cannabis sativa L.) Suitability and Productivity in Lebanon.

Author

Sleiman, Rhend, Gerard, Jocelyne Adjizian, Fahed, Salim, Todorovic, Mladen, Sellami, Mohamed Houssemeddine, Albrizio, Rossella, and Abi Saab, Marie Therese

Subjects

WATER management, SUSTAINABILITY, AGRICULTURE, CLIMATE change, HEMP, AUTUMN

Abstract

Within the prevalent challenges posed by climate change and decreasing resources, this research underscores the importance of adopting sustainable agricultural practices combined with efficient water resource management. Employing comprehensive climate and soil suitability analyses, this research analyzed the capacity of hemp (Cannabis sativa L.) to adapt to Lebanon's heterogeneous environmental landscapes across two distinct growing seasons (autumn and spring). Both climate and edaphic suitability mapping were conducted to study hemp's suitability. AquaCrop v.7.1 was used to simulate seed yield, biomass production, irrigation needs and yield water productivity in the different agro-homogeneous zones of Lebanon for the two considered seasons. The findings revealed that approximately 30% and 19% of Lebanon's land exhibit suitability for hemp cultivation during the spring and autumn seasons, respectively. According to AquaCrop model simulations, under the prevailing climatic conditions, the predicted seed yield will range from 3.7 to 5.6 t ha−1 under rainfed conditions and will reach 11.1 t ha−1 for irrigated cultivation. Moreover, employing efficient irrigation techniques during the spring season showed a significant improvement in both yield and biomass of hemp. The enhancement was evident, with notable increases of 112.22% in yield and 96.43% in biomass compared to rainfed conditions. This research highlights the importance of identifying suitable regions within Lebanon capable of supporting hemp cultivation in a sustainable manner. Such research not only promises economic development but also aligns with broader global sustainability objectives. [ABSTRACT FROM AUTHOR]

Published

2024

40. Influence of Irrigation Regime on Total Yield of Tomato Crop and Water Productivity under Drip Irrigation System.

Author

M. S., Abd El-baki, Ibrahim, M. M., El-Sayed, S. E. M., and Daoud, Nadia G. A.

Subjects

MICROIRRIGATION, DEFICIT irrigation, WATER shortages, IRRIGATION water, SOIL moisture

Abstract

Copyright of Journal of Soil Sciences & Agricultural Engineering is the property of Egyptian National Agricultural Library (ENAL) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

41. Assessing zero‐till direct seeding at variable water stress levels compared to traditional puddled transplanting of rice under groundwater‐fed irrigation systems in north‐west India.

Author

Kumar, Satyendra, Narjary, Bhaskar, Paudyal, Kalpana, Yadav, Rajender Kumar, and Kamra, Sushil Kumar

Subjects

WATER levels, IRRIGATION scheduling, SOIL matric potential, GROUNDWATER management, IRRIGATION, GROWING season, TRANSPLANTING (Plant culture)

Abstract

Copyright of Irrigation & Drainage is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

42. Exploration of the cropping pattern based on the irrigation water–energy–food and carbon emission nexus.

Author

Chand, Jeet B. and Bimali, Sanjeeb

Subjects

CROPPING systems, CARBON emissions, CORPORATE profits, FARM produce, IRRIGATION

Abstract

Copyright of Irrigation & Drainage is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

43. Assessment of the AquaCrop model to simulate the impact of soil fertility management on evapotranspiration, yield, and water productivity of maize (Zea May L.) in the sub-humid agro-ecology of Nigeria.

Author

Adeboye, Omotayo B., Schultz, Bart, Adeboye, Amaka P., Chukalla, Abebe, and Shittu, Kabiru A.

Subjects

*SOIL fertility, *EVAPOTRANSPIRATION, *CORN, *RAINFALL, *CROPS

Abstract

Field experiments were conducted for two seasons in Ile-Ife, Nigeria to evaluate the performance of the AquaCrop model in simulating the effects of soil fertility management on the canopy cover (CC), soil water storages (SWS), cumulative aboveground biomass (BM), evapotranspiration (ETa), grain yields, and water productivity (WP) of rainfed maize. Six levels of soil fertility management and two cultivars of maize, SUWAN 1-SR and PVA led to a 2 by 6 factorial experimental treatment and arranged in a randomized complete block design. Agronomic and environmental parameters were measured for two consecutive seasons. The AquaCrop model was calibrated using data from the wetter year. The AquaCrop model captured well the variances in the CC, R2 ≥ 0.88, RMSE ≤ 14.2, and d-index ≥ 0.97 under full and stressed soil fertility. Although the AquaCrop model over and underestimated SWS, it is still within acceptable limits. The model simulated SWS well, R2 ≥ 0.71, EF ≥ 0.97, and d-index ≥ 0.97. AquaCrop tends to underestimate ETa under rainfall and NPK variabilities. The AquaCrop model simulated grain yields excellently, R2 = 0.99, b = 1.00. The 150% of the recommended NPK application is suitable for the desired improvement in land and water productivity of the crop. The AquaCrop model predicted and captured the trends in the yields and water productivity of maize adequately under varying NPK applications. Further research is required on other cultivars of the crop and locations in the area in order to generalize the adequacy of the model. [ABSTRACT FROM AUTHOR]

Published

2024

44. Increasing Hybrid Rice Yield, Water Productivity, and Nitrogen Use Efficiency: Optimization Strategies for Irrigation and Fertilizer Management.

Author

Zhu, Haijun, He, Xiaoe, Wang, Xuehua, and Long, Pan

Subjects

IRRIGATION management, RICE, NITROGEN fertilizers, IRRIGATION water, WATER management, HYBRID rice, NITROGEN, IRRIGATION

Abstract

Water and fertilizer are crucial in rice growth, with irrigation and fertilizer management exhibiting synergies. In a two-year field study conducted in Yiyang City, Hunan Province, we examined the impact of three irrigation strategies—wet-shallow irrigation (W1), flooding irrigation (W2), and the "thin, shallow, wet, dry irrigation" method (W3)—in combination with distinct fertilizer treatments (labeled F1, F2, F3, and F4, with nitrogen application rates of 0, 180, 225, and 270 kg ha−1, respectively) on rice yield generation and water–fertilizer utilization patterns. The study employed Hybrid Rice Xin Xiang Liang you 1751 (XXLY1751) and Yue Liang you Mei Xiang Xin Zhan (YLYMXXZ) as representative rice cultivars. Key findings from the research include water, fertilizer, variety, and year treatments, which all significantly influenced the yield components of rice. Compared to W2, W1 in 2022 reduced the amount of irrigation water by 35.2%, resulting in a 42.0~42.8% increase in irrigation water productivity and a 25.7~25.9% increase in total water productivity. In 2023, similar improvements were seen. Specifically, compared with other treatments, the W1F3 treatment increased nitrogen uptake and harvest index by 1.4–7.7% and 5.9–7.7%, respectively. Phosphorus and potassium uptake also improved. The W1 treatment enhanced the uptake, accumulation, and translocation of nitrogen, phosphorus, and potassium nutrients throughout the rice growth cycle, increasing nutrient levels in the grains. When paired with the F3 fertilization approach, W1 treatment boosted yields and improved nutrient use efficiency. Consequently, combining W1 and F3 treatment emerged as this study's optimal water–fertilizer management approach. By harnessing the combined effects of water and fertilizer management, we can ensure efficient resource utilization and maximize the productive potential of rice. [ABSTRACT FROM AUTHOR]

Published

2024

45. Numerical simulation of integrating an air conditioner with an evaporative air cooler.

Author

Hussain, Haider Mumtaz and Hammdi, Salman Hashim

Subjects

*AIR conditioning equipment, *CLIMATE change, *ELECTRICITY, *COMPUTER simulation, *NUMERICAL analysis

Abstract

During the summer, air conditioning is increasingly used in commercial and residential structures to provide thermal comfort. The elevated condenser pressure caused by high ambient temperatures has led to a significant increase in electricity consumption in dry, hot climates. Therefore, this article presents the results of a numerical simulation investigation into the feasibility of enhancing the performance of a conventional air conditioning unit by applying a direct evaporative cooling system. The objective is to increase the cooling capacity while decreasing power consumption. The program used a small window-type air conditioner configured to simulate various weather conditions. The numerical findings indicate that incorporating evaporative cooling aids improved the system's ability to overcome numerous obstacles, resulting in a 10-20% increase in refrigeration capacity. Additionally, power consumption was reduced by approximately 3%, and the discharge temperature fell by 6-10°C. The predicted mean vote standard (PMV) for thermal conditions for human occupants yielded favorable outcomes (normal-type). Despite the challenging climate conditions prevailing during the five sweltering summer months, water production demonstrated good results, particularly in September. [ABSTRACT FROM AUTHOR]

Published

2024

46. Optimizing Irrigation and Fertilization to Simultaneously Improve Potato Tuber Yield, Water and Fertilizer Use Efficiency and Net Income in Northwest China.

Author

Zhang, Fan, Chen, Mengru, Zheng, Yu, Xie, Yunxia, and Xing, Yingying

Subjects

*POTATOES, *CORPORATE profits, *PLANT fertilization, *TUBERS, *IRRIGATION, *SOIL microbiology

Abstract

Irrigation, fertilization, and variety are important factors affecting potato production in northwest China. Field experiments (2021 and 2022) were performed to investigate the effects of irrigation and fertilization on the plant growth and soil microbial population of different potato varieties. Three irrigation levels were used, i.e., 100% ETc (W1), 80% ETc (W2), and 60% ETc (W3), with ETc standing for crop evapotranspiration. Three fertilization levels were used (N-P-K), i.e., 240-120-300 kg ha−1 (F1), 180-90-225 kg ha−1 (F2), and 120-60-150 kg ha−1 (F3). Three variety types were used, i.e., Feiurita (V1), Longshu 7 (V2), and Qingshu 9 (V3). These factors significantly influenced tuber yield (TY), net income (NI), and water productivity (WP). TY, NI, WP, total nitrogen accumulation (TNA), and nitrogen use efficiency (NUE) peaked at F2. Fertilization significantly impacted soil bacteria quantity (SBQ), fungi quantity (SFQ), and actinomycetes quantity (SAQ). TY, NI, SBQ, SFQ, and SAQ were highest at W2. Soil microbial population was strongly correlated with TY, NI, WP, TNA, and NUE. Comprehensively, this study suggests that irrigation that is varied from 248 to 266 mm, and fertilization (N-P-K) that is varied from 149.09-74.55-186.36 to 212.73-106.36-265.91 kg ha−1 can promote the potato industry's sustainable development and provide important references for the optimal field management of potato cultivation in northwest China. [ABSTRACT FROM AUTHOR]

Published

2024

47. Diseminasi Fertigasi Otomatis Nirdaya untuk Budidaya Sayuran di Kota Tasikmalaya.

Author

Muharomah, Riani, Setiawan, Budi Indra, and Suwardi

Abstract

Unpowered Automatic Fertigation (FONi) is a new technology developed by IPB University. FONi applies the concept of evapotranspiration irrigation, which can meet plants' water needs at any time without using electricity. FONi is a series of plant pots connected to a water supply tank, and the water level is maintained to form a connected vessel system. The nutrient solution can be put into a water tank to make fertilizer application more practical. This activity aims to introduce FONi to the broader community so that it can utilize nonproductive land for planting valuable vegetables and getting feedback for further development. Types of vegetables cultivated are long beans intercropped with kale. This activity was carried out in a residential area located on Jl. Burujul II, RW 03, Cipedes, Tasikmalaya City, West Java. Activities range from designing, installing, planting, maintaining, observing, harvesting, and explaining to the community, local government, and mass media. After 14 days, kale was picked, while long beans were picked after 48 days. Within 48 days, the prolonged bean harvest reached 3 Kg with land and water productivity of 2.9 kg m-2 and 2.3 kg L-1, respectively. CCTV monitoring shows prolonged bean picking is still carried out for up to 60 days. The economic value of cultivating long beans and kale in one season exceeds the cost of construction and production. The public's interest is high, implied by a strong desire to apply it. If this activity continues, it is hoped that the nutritional needs and adequacy of safe and healthy vegetables for all residents in the future can be fulfilled and that it will strengthen the image of Tasikmalaya City as a Kota Resik. [ABSTRACT FROM AUTHOR]

Published

2024

48. Productivity of rainfed maize as influenced by hydrogel and mulching under conventional and zero tillage in maize–wheat cropping system.

Author

Kumar, Suresh, Arya, Rajesh Kumar, Singh, Narender, and Singh, Satpal

Subjects

NO-tillage, TILLAGE, MULCHING, SEED technology, HYDROGELS, CORN, GRAIN yields

Abstract

An agronomy field experiment was conducted at Ram Dhan Singh Seed Farm, CCS Haryana Agricultural University, Hisar, India, at 29°47' N latitude and 75°47′ E longitude in a semi-arid climate having loamy sand soil during two successive years to compare the efficacy of different levels of hydrogel and mulch application along with conventional and zero tillage in maize cultivation under rainfed conditions. The maize hybrid cultivar HQPM 10 was tested under three levels of hydrogel (control, 2.5 and 5.0 kg/ha), two levels of crop cultivation (conventional and zero tillage) and two levels of moisture conservation (control and residue/mulch). Zero tillage, residue retention/mulching and hydrogel application increased soil moisture retention capacity, crop maturity, plant height, grain yield, stover yield and water productivity in rainfed maize. Zero tillage produced significantly higher grain yield (5466 and 5339 kg/ha) as compared to conventional tillage (4041 and 4103 kg/ha) There was significant increase in grain yield due to residue retention/mulching 4.0 t/ha (5058 and 5082 kg/ha) than no mulching (4449 and 4360 kg/ha). Among all hydrogel levels, application of hydrogel 5.0 kg/ha recorded the maximum grain yield in rainfed maize (4921 and 4951 kg/ha) being significantly higher than control (4544 and 4506 kg/ha). [ABSTRACT FROM AUTHOR]

Published

2024

49. Water Productivity of Sugarcane + Summer Moong Intercropping System Under Subsurface Drip Irrigation and Straw Mulching.

Author

Singh, Kuldeep, Singh, Khushdeep, Brar, Ajmer Singh, Sahoo, Priyanka, Gupta, Naveen, and Mishra, S. K.

Abstract

Sugarcane is a potential crop to replace the predominant rice–wheat cropping system of north India which is causing a gradual depletion of the groundwater table. However, sugarcane has a high water demand during the summer months. In comparison of conventional check basin method of irrigation, the micro-irrigation is a viable option to save water. Moreover, intercropping of summer moong in sugarcane increases the income and profitability of the farmers. Therefore, the present study was conducted to investigate the effects of intercropping of summer moong (Vigna radiata), mulching and subsurface drip irrigation on water productivity and profitability at Punjab Agricultural University, Regional Research Station, Faridkot during 2019–2020 (plant) and 2020–2021 (ratoon). Subsurface drip irrigation at 100% CPE (Cumulative Pan Evaporation) gave higher summer moong seed yield (0.52 and 0.51 t ha−1), cane yield (83.4 and 85.7 t ha−1), and cane equivalent yield (95.3 and 97.1 t ha−1), respectively, during 2019–2020 and 2020–2021 which was at par with 80% CPE and significantly better than 60% CPE. Intercropping 3 rows of summer moong produced higher summer moong seed yield, cane yield and cane equivalent yield than 2 rows. Mulching @ 6 t ha−1 produced significantly higher cane yield and cane equivalent yield over no mulching. Subsurface drip irrigation at 100% and 80% CPE saved water by 25% and 37.5%, respectively, than check basin method of irrigation. Therefore, subsurface drip irrigation either at 80 or 100% CPE having 3 rows of summer moong with mulching is recommended as the best management practice for sustainable yield and water saving. [ABSTRACT FROM AUTHOR]

Published

2024

50. Conception of Improved Blackgram (Vigna mungo L.) Production Technology and its Propagation among Farmers for the Development of a Sustainable Seeds Production Strategy.

Author

Marimuthu, S., Vanitha, C., Surendran, U., El-Hendawy, Salah, and Mattar, Mohamed A.

Abstract

Having a strong seed system that could spur agricultural expansion would be the first and most important step toward achieving food security in the nation of India. The main objective of this study was to investigate the impact of Improved Production Technology (IPT) on the production of high-quality seeds of blackgram (Vigna mungo L.) cultivar VBN 6 in a farmer-participatory mode in Tamil Nadu, India's Ponnanaiyar subbasin during kharif and rabi 2017–18. In total, 985 farmers from 235 places throughout chosen Pudukkottai and Tiruchirappalli districts received frontline IPT demonstrations and IPT was applied in their agronomic practices afterwards. Compared to traditional approaches, our study demonstrated that IPT not only facilitated the production of high-quality seeds, but also a 25.14% higher seed yield of blackgram. Furthermore, the average water productivity was improved from 0.116 kg ha−1 m−3 to 0.154 kg ha−1 m−3. This study indicated IPT was effective in guaranteeing a system of sustainable seed production and thus was of great value in raising the farmers' net incomes, profitability, and cost-benefit ratios. There is little well-documented data on how the farmer-participatory approach improves seed production technology in a sustainable way in the case of pulses when adopting improved production technologies in arable crop farming. Our creative method of having farmers participate in the demonstrations allowed us to evaluate how these extension programs affected the technology utilized to produce high-quality seeds. This study indicated IPT was effective in guaranteeing a system of sustainable seed production and thus was of great value in raising the farmers' net incomes, profitability, and cost–benefit ratios. [ABSTRACT FROM AUTHOR]

Published

2024