Pond Construction Research Articles

Study on Flood Control Facility Design Linking Retention Pond and Rainwater Pumping Station

The primary causes of flood damage in a basin include the inadequate water flow capacity of pipelines and rivers, along with the inability to drain inland water, owing to rising water levels. Flood response facilities, such as rainwater pumping stations (pump-integrated gate type) that actively drain inland water, and retention ponds designed to manage peak flood volumes, are essential. The focus of this study is the Gyeticheon Basin in Haman-gun, Gyeongsangnam-do. To manage flood risks, the proposal includes rainwater pumping stations for the downstream area and an off-line retention pond for the midstream area. This study develops a modeling method that simultaneously plans the side-weir of the retention pond and the rainwater pumping station. In addition, the analysis compared the flood control capacity in relation to the height and width of the side weir, and the operating water level (OWL.) of the pumping station. The results showed that when the (OWL.) of the rainwater pumping station surpasses the height of the side weir, the initial flood volume overflows the side weir, significantly reducing the flood control effectiveness of the basin. Consequently, if the side weir is designed to be low in the construction of a retention pond for flood control, or if a retention pond features a movable weir that tilts during the early stages of a flood, allowing water to overflow transversely into the pond, the flood control effectiveness can be significantly reduced. These findings are expected to aid in the design and operation of complex flood control facilities in future.

Design and Construction of Farm Ponds for Horticulture Crops in Arid Regions: A Review

Design and Construction of Farm Ponds for Horticulture Crops in Arid Regions: A Review

Empowering communities through IoT-enabled fish cultivation in Kembangarum Subdistrict, Semarang City

This community service activity aims to improve the welfare of the people of Kembangarum Subdistrict, Semarang, through the development of catfish cultivation based on Internet of Things (IoT) technology. The implementation of the activity includes needs analysis, pond construction, IoT installation, training, and assistance in fish cultivation and post-harvest processing. The results of the activity show an increase in community understanding of IoT technology and its application in catfish cultivation. Additionally, a grant was provided in the form of a catfish pond equipped with an IoT system for real-time water quality monitoring. This activity also successfully improved community skills in processing harvested fish into various products, thus potentially increasing community income. Overall, this community service activity has contributed to the development of the local economy and opened up opportunities for the formation of a thematic catfish village in Kembangarum Subdistrict.

Impact of Rainfall and Soil Infiltration on Groundwater Dynamics of Yerekoppi-1 Micro-watershed, Haveri District, Karnataka, India

The amount of water infiltrating the soil surface directly affects the quantity of surface runoff and erosion, and the recharge of both soil and groundwater. Groundwater recharge is an informative indicator of the water located beneath the ground surface. It has a direct impact on renewable supplies of groundwater. In the present study on Impact of rainfall and soil infiltration rate was used for effect on the groundwater level of the Yerekoppi-1 micro watershed (Manakur sub-watershed) in Haveri district of Karnataka state. Average annual rainfall is 700.7 mm and mean potential evapotranspiration is 1541.8 mm. An area of about 888 ha (94.32 %) has clay texture at the surface and 53 ha (5.68%) area has contributing settlement. In Yerekoppi-1 micro- watershed, 38 borewells are there in the vicinity of major stream of the micro- watershed. The mean depth of groundwater levels in the micro- watershed were monitored at a monthly frequency during January-2023 to March-2024. It was found that the maximum average depth of bore wells are about 17.6 mbgl and lowest average depth of borewell about 8.8 mbgl. Soil infiltration rate was measured at upper, middle and lower reaches of the watershed area in the year 2023 and 2024. The majority of the area contributed clay soil. In all the areas of micro-watershed, infiltration rate for clay soil is less than 5 mm/hr. Infiltration rates for all the areas was 1.72- 4.78 mm/hr. Soil infiltration during a rainstorm is closely related to a number of factors such as the intensity and kinetic energy of the rainfall, soil surface conditions and soil properties such as those related to aggregate stability. The groundwater recharge may be improved by growing plantation crop for increasing infiltration rate, construction of percolation tanks and farm ponds in the lower most of the agricultural land.

Deciphering Farm Pond Adoption Dynamics and Operational Efficiency in Drought-Prone Regions of Maharashtra, India

The study delves the dynamics of farm pond adoption and operational efficiency in the Vidarbha and Marathwada regions of Maharashtra during 2022-23. Through a combination of quantitative and qualitative methods, data were collected from 160 beneficiaries and 160 non-beneficiaries, employing focus group discussions and structured interviews. Agricultural risks were examined, revealing a significant impact on farm income. Challenges such as low ground water table (MS 0.978), high temperatures (MS 0.966), and least evapotranspiration (MS 0.759) affected farmers' livelihoods, underscoring the need for a multidisciplinary approach to address these issues. The study highlights factors influencing farm pond adoption, with high awareness (96.56%) contrasting with lower adoption rates (51.56%). Adopters cited increased water access (22.81%), and relief from water scarcity (20%) as motives. Non-adopters faced barriers like financial constraints (21.88%) and land shortage (18.75%). Farm pond characteristics were comprehensively explored, revealing variations in size, structure, year of adoption, and irrigation sources. Maintenance activities were examined, showcasing key areas for pond health. Regular inspection (31.88%), vegetation management (17.50%), sediment removal (25.63%), and erosion prevention (19.38 %) emerged as crucial tasks, with variations between the regions. Financial aspects of pond construction and maintenance were elucidated, indicating a need of subsidies. Despite widespread awareness of farm pond benefits, adoption rates remained constrained by financial limitations, land availability, and awareness gaps. The study underscores the importance of targeted interventions, including financial aid, technical guidance, and capacity-building. These efforts are essential for promoting widespread adoption, enhancing agricultural productivity, water management, and the resilience of farming communities in both regions.

IHST (Integrated, Holistic, Spatial, and Thematic) Flood Management Model: The Integration of Flood Model, Green Infrastructure and Non-Structural Mitigation in the Urban Area of Barabai City

Abstract The January 2021 Floods paralyzed the entire Hulu Sungai Tengah Region, South Kalimantan Province, Indonesia, submerging 20,553 houses, causing minor damage to 2,973 houses, severe damage to 268 houses, and resulting in losses exceeding 53 million dollars. The Barabai Urban Area was one of the locations severely affected by flood. The flood management was conducted in the Barabai urban area to predict and visualize water movement during flooding, aiding in understanding and mitigating flood risks, as well as developing effective flood management strategies. The flood management was carried out adopted the IHST Model, which is the abbreviation from Integrated, Holistic, Spatial, and Thematic. The activities involve HECRAS 6.2 application, utilizing Google Earth terrain data, river geometry data, and flood discharge analysis based on the Nakayasu method. The analysis results highlighted the need for both structural and non-structural flood interventions. Non-structural interventions aiming to reduce vulnerability and enhance community capacity in facing flood. Structural developments involved the construction of storm water retention ponds and river embankments at specific locations based on the flood modelling results. The concept of polder and river embankment development was approached through green infrastructure principles, as flood management solutions should not only facilitate rapid water drainage but also improve soil absorption to prevent prolonged inundation.

Design and construction of a collapsible tarpaulin-lined pond for aquaculture production

Design and construction of a collapsible tarpaulin-lined pond for aquaculture production

Building pondscapes for amphibian metapopulations.

The success of ponds constructed to restore ecological infrastructure for pond-breeding amphibians and benefit aquatic biodiversity depends on where and how they are built. We studied effects of pond and landscape characteristics, including connectivity, on metapopulation dynamics of 12 amphibian species in Switzerland. To understand the determinants of long-term occupancy (here summarized as incidence), environmental effects on both colonization and persistence should be considered. We fitted dynamic occupancy models to 20years of monitoring data on a pond construction program to quantify effects of pond and landscape characteristics and different connectivity metrics on colonization and persistence probabilities in constructed ponds. Connectivity to existing populations explained dynamics better than structural connectivity metrics, and simple metrics (distance to the nearest neighbor population, population density) were useful surrogates for dispersal kernel-weighted metrics commonly used in metapopulation theory. Population connectivity mediated the persistence of conservation target species in new ponds, suggesting source-sink dynamics in newly established populations. Population density captured this effect well and could be used by practitioners for site selection. Ponds created where there were 2-4 occupied ponds within a radius of ∼0.5km had >3.5 times higher incidence of target species (median) than isolated ponds. Species had individual preferences regarding pond characteristics, but breeding sites with larger (≥100m2) total water surface area, that temporarily dried, and that were in surroundings with maximally 50% forest benefitted multiple target species. Pond diversity will foster amphibian diversity at the landscape scale.

Trait variation in patchy landscapes: Morphology of spotted salamanders (Ambystoma maculatum) varies more within ponds than between ponds.

The influence of intraspecific trait variation on species interactions makes trait-based approaches critical to understanding eco-evolutionary processes. Because species occupy habitats that are patchily distributed in space, species interactions are influenced not just by the degree of intraspecific trait variation but also the relative proportion of trait variation that occurs within- versus between-patches. Advancement in trait-based ecology hinges on understanding how trait variation is distributed within and between habitat patches across the landscape. We sampled larval spotted salamanders (Ambystoma maculatum) across six spatially discrete ponds to quantify within- and between-pond variation in mass, length, and various metrics associated with their relationship (scaling, body condition, shape). Across all traits, within-pond variation contributed more to total observed morphological variation than between-pond variation. Between-pond variation was not negligible, however, and explained 20-41% of total observed variation in measured traits. Between-pond variation was more pronounced in salamander tail morphology compared to head or body morphology, suggesting that pond-level factors more strongly influence tails than other body parts. We also observed differences in mass-length relationships across ponds, both in terms of scaling slopes and intercepts, though differences in the intercepts were much stronger. Preliminary evidence hinted that newly constructed ponds were a driver of the observed differences in mass-length relationships and morphometrics. General pond-level difference in salamander trait covariation suggest that allometric scaling of morphological traits is context dependent in patchy landscapes. Effects of pond age offer the hypothesis that habitat restoration through pond construction is a driver of variation in trait scaling, which managers may leverage to bolster trait diversity.

Rob Flood Control on the North Coast of Java (Study on coastal areas of Pekalongan and Semarang)

Flooding on the coasts of Pekalongan and Semarang, North Coast of Java (Pantura), has become a severe problem for the Indonesian government. Factors causing the flood are rainfall, climate, land subsidence and rob, river conditions, tidal influence, poorer areas, land change, inappropriate flood control, damage to flood control buildings, excessive groundwater utilization, inappropriate flood management, river sedimentation, reduced water catchment areas, and runoff floods. Therefore, there is a need for an appropriate handling study to deal with these problems. This research aimed to determine the achievements of coastal flood control on the North Coast of Java. Data was collected through a literature review for secondary data, field studies for primary data, in-depth interviews with relevant stakeholders, and observation. The results showed that handling Rob flooding in coastal Pekalongan focuses on four locations: Bremi River, Meduri River, Mrican pump house, and Silempeng. Rob flood handling methods on the Pekalongan coast include the construction of concrete barriers with corrugated sheet pile (CCSP), compacted soil embankments with bamboo mattress reinforcement, and submersible pumping machines at the Mrican pump house. In comparison, rob flood management in coastal Semarang focuses on the Sringin and Tenggang rivers. The flood handling methods conducted are the provision of pumps, construction of Rob embankments and retention ponds, normalization, drainage improvements, and interconnection channels. However, handling coastal flooding needs a comprehensive and sustainable follow-up.

Briefing: Intensive inland aquaculture ponds: challenges and research opportunities

This briefing presents an overview of inland aquaculture scenario that focuses on challenges of aquaculture farming, contaminant transport and the future of aqua farming in a broader perspective of environmental geotechnics. Un-engineered aquaculture practices are a cause of concern, and special attention is necessary in waste water management, cross-contamination with the adjacent environment, sludge–subsoil interaction, pond embankment slope failure, leachate migration into the vadose zone, geoenvironmental remediation strategies and geotechnical engineering aspects of engineered pond construction.

Tracking the Effects of Mangrove Changes and Spartina alterniflora Invasion on Soil Carbon Storage: A Case Study of the Beibu Gulf of Guangxi, China

In order to clarify the long-term changes in mangroves in the Beibu Gulf of Guangxi and the carbon storage changes after the invasion of Spartina alterniflora (S. alterniflora) in the Dandou Sea area, the Continuous Change Detection and Classification (CCDC) algorithm combined with feature indices was first used to track the changes. Subsequently, the random forest algorithm was applied to classify each change segment, and then sampling was conducted based on the distribution of S. alterniflora in different invasion years. The results showed that the Kappa coefficient of the classification result of the latest change segment was 0.78. The rapid expansion of S. alterniflora, aquaculture pond construction, and land reclamation activities have led to changes in mangroves, causing a decrease in the area of the mangrove region. A total of 814.57 hectares of mangroves has been converted into other land-cover types, with most pixels undergoing one to two changes, and many of these changes were expected to continue until 2022. An analysis of the distribution characteristics and influencing factors of soil organic carbon (SOC) and soil organic carbon storage (SOCS) at different invasion stages revealed that SOC and SOCS were mainly influenced by soil bulk density, soil moisture content, and electrical conductivity. It was found that S. alterniflora had higher SOC content compared to the mudflats. With the increase in invasion years, S. alterniflora continuously increased the SOC and SOCS content in coastal wetlands.

CO2 fluxes contrast between aquaculture ponds and mangrove forests and its implications for coastal wetland rehabilitation in Leizhou Peninsula, China

Coastal wetlands have great potential to mitigate climate change. However, in recent decades, the construction of aquaculture ponds has degraded coastal habitats, especially mangroves. Meanwhile, the lack of synchronized monitoring of carbon dioxide (CO2) fluxes in coastal ponds and mangroves hinders the promotion of carbon neutrality target through the implementation of coastal wetland rehabilitation. To address this issue, we deployed two eddy-covariance systems in the ponds and nearby mangroves to measure the net ecosystem CO2 exchange between atmosphere and ecosystems for two years. The results indicated that both the ponds and mangroves were CO2 sinks at the annual scale, with mean net ecosystem production (NEP) of 123 ± 39 and 1296 ± 32 g C m−2 year−1, respectively. During the 2-year period, the ponds acted as CO2 sources in certain seasons, while the mangroves displayed consistently high seasonal NEP. The construction of ponds by clearing mangroves would reduce NEP along the coasts of the Leizhou Peninsula by about 91% (96% for China), while abandoning all ponds for mangrove rehabilitation could have a significant CO2 mitigation benefit (i.e., 214.7 Gg year−1). Moreover, we compared how CO2 fluxes responded to global solar radiation and temperature by analyzing relevant parameters in the two ecosystems. Overall, the ponds showed lower light-saturated net CO2 exchange and Q10 values compared to the mangroves. Finally, we applied an advanced machine learning local interpretation algorithm to investigate the crucial drivers and their main effects on NEP. This analysis highlighted global solar radiation as the predominant driver for NEP in both ecosystems. High temperature and vapor pressure deficit inhibited mangrove NEP, particularly during summer, whereas pond NEP exhibited greater volatility in response to meteorological conditions such as temperature. Our findings provide insights for further proceeding with mangrove restoration and management to enhance the carbon sequestration capacity of coastal wetlands.

PEMBUATAN KOLAM TERASERING UNTUK BUDIDAYA IKAN DI RW 23 DESA CILAME KECAMATAN NGAMPRAH KABUPATEN BANDUNG BARAT

A community service team from TEDC Bandung Polytechnic conducted a community service activity in Cilame Village, Bandung Barat Regency. The activity was the construction of terraced ponds for fish farming. This activity aims to help improve the economy of Cilame Village residents with low incomes. The activity began with the formation of a community service team consisting of 13 people. The team then conducted a field survey to determine the location and theme of the community service. After that, the team made a letter of request to the Head of Rukun Warga 23, Cilame Village. The construction of the terraced pond was carried out at one of the residents' houses which had unused land in the front yard of their house. The pond is 2 meters x 1 meter x 0.5 meters in size. After the pond was completed, the community service team provided catfish and tilapia fry to the resident. The activity went smoothly and was completed on time. On April 12, 2021, the community service team handed over the pond to the residents of Cilame Village.

Change in the Rivedbed Due to Regulator Gate on the Loji River

The city of Pekalongan, located in the northern part of Java Island within Central Java Province, faces challenges such as floods and tidal inundation originating from the runoff of the Loji River, exacerbated by tides due to land subsidence and changes in land use. To address these issues, the government, through BBWS Pemali Juana, has undertaken a technical study on flood control, involving the construction of normalization, regulator gates, moveable weirs, and retention ponds along the Loji River. This study aims to analyze the changes in the riverbed resulting from the development initiatives on the Loji River. The analysis employs HEC-RAS 1D to assess alterations in sedimentation patterns within the river. The outcomes of the constructed interventions on the Loji River reveal notable changes in the riverbed, characterized by increased sedimentation and erosion. This research serves a crucial role in providing valuable input to the government for policymaking related to planning, implementation, and monitoring, grounded in the principles of integrated water resources management.

동궁과 월지 서편 지역의 대지조성층 재검토

Gyeongju Donggung Palace and Wolji Pond are royal historical sites built in Unified Silla period, 679 and 674. Recently, this site had excavated and reported on Building A in the western area of Wolji pond. The existing view regarding the site construction for Building A is that the site preparation was carried out in a short period of time in the mid to late 7th century for the construction of Building A. This paper presumes that the land development was not done in a short period of time, but was done at temporal intervals and stages based on review of excavation data. This paper suggests the reasonable evidences that the pattern and depositional sequence of the soil layer at the northern trench, unearthed relics, radiocarbon dating results, and the existence of East Pond(Dongji) before Wolji Pond. This article assumes that the site formation at western area was completed and used before the construction of Building A. The period is estimated to be the late 5th century through artifacts. It regards the previous site construction that existed in the late 5th century. The function of the vertical silt facility discussed as a waterproofing facility in the previous site construction. In addition, it assumed that the silt facility would exist adjacent to the pond as a revetment of the East Pond. In conclusion, based on the results of the investigation of the trench on the northern side of Building A, the existence of the previous site formation layers that estimated to had been created around the late 5th century in the western area of Wolji. And along with its function as a waterproof facility, the landscape was presented in which the East Pond had located to the north of the Building A site before the Wolji Pond construction.

Spatiotemporal disturbances and attribution analysis of mangrove in southern China from 1986 to 2020 based on time-series Landsat imagery

As one of the most productive ecosystems in the world, mangrove has a critical role to play in both the natural ecosystem and the human economic and social society. However, two thirds of the world's mangrove have been irreversibly damaged over the past 100 years, as a result of ongoing human activities and climate change. In this paper, adopting Landsat for the past 36 years as the data source, the detection of spatiotemporal changes of mangrove in southern China was carried out based on the Google Earth Engine (GEE) cloud platform using the LandTrendr algorithm. In addition, the attribution of mangrove disturbances was analyzed by a random forest algorithm. The results indicated the area of mangrove recovery (5174.64 hm2) was much larger than the area of mangrove disturbances (1625.40 hm2) over the 35-year period in the study area. The disturbances of mangrove in southern China were dominated by low and low-to-medium-level disturbances, with an area of 1009.89 hm2, accounting for 57.50 % of the total disturbances. The mangrove recovery was also dominated by low and low-to-medium-level recovery, with an area of 3239.19 hm2, accounting for 62.61 % of the total recovery area. Both human and natural factors interacted and influenced each other, together causing spatiotemporal disturbances of mangrove in southern China during 1986–2020. The mangrove disturbances in the Phase I (1986–2000) and Phase III (2011–2020) were characterized by human-induced (50.74 % and 58.86 %), such as construction of roads and aquaculture ponds. The mangrove disturbances in the Phase II (2001–2010) were dominated by natural factors (55.73 %), such as tides, flooding, and species invasions. It was also observed that the area of mangrove recovery in southern China increased dramatically from 1986 to 2020 due to the promulgation and implementation of the Chinese government's policy on mangrove protection, as well as increased human awareness of mangrove wetland protection.

Impact of Pradhan Mantri Krishi Sinchayee Yojana Watershed Projects on Cultivable Lands in East Godavari District of Andhra Pradesh, India

Aim: This study was taken up to investigate the usefulness of Remote Sensing & GIS tools for the evaluation of fourteen watershed projects implemented under Pradhan Mantri Krishi Sinchayee Yojana (PMKSY) project in East Godavari District of Andhra Pradesh.
 Place and Duration of Study: This study was conducted by Panchayat Raj and Rural Development Department, Andhra Pradesh 2009 to 2022.
 Methodology: High-resolution data like Resourcesat-2, Linear Imaging and Self Scanning-IV (LISS-IV) of 2011 (pre-treatment) and 2016 (post-treatment) were used in this project to measure the changes in land use/land cover and biomass during the project period (2011-16). Due to the implementation of the watershed developmental activities, an additional area of 11417 ha has been brought under cultivation.
 Results: The fallow land area decreased by 3686.12 Ha (24.12%) which is attributed to dense and open vegetation categories. The output of the Normalized Difference Vegetation Index classification indicates the increase in dense vegetation by 9804.05 ha, which indicates there is an improvement in the open vegetation category due to the reclamation of fallow land.
 Conclusion: This study reveals that an additional area of 126.88 ha (12.80%) increased under water bodies and 3686.12 ha wasteland converted to cultivable land due to the construction of farm ponds, percolation tanks and check dams. This area is attributed to cropland and plantations.

High Intra‐Seasonal Variability in Greenhouse Gas Emissions From Temperate Constructed Ponds

AbstractInland waters play a major role in global greenhouse gas (GHG) budgets. The smallest of these systems (i.e., ponds) have a particularly large—but poorly constrained—emissions footprint at the global scale. Much of this uncertainty is due to a poor understanding of temporal variability in emissions. Here, we conducted high‐resolution temporal sampling to quantify GHG exchange between four temperate constructed ponds and the atmosphere on an annual basis. We show these ponds are a net source of GHGs to the atmosphere (564.4 g CO2‐eq m−2 yr−1), driven by highly temporally variable diffusive methane (CH4) emissions. Diffusive CH4 release to the atmosphere was twice as high during periods when the ponds had a stratified water column than when it was mixed. Ebullitive CH4 release was also higher during stratification. Building ponds to favor mixed conditions thus presents an opportunity to minimize the global GHG footprint of future pond construction.

Investigating the strength and durability properties of alkali activated red mud for tailings pond embankment material

This article investigates the applicability of alkali-activated red mud (RM) as a geo-material for the construction of tailings pond (TP) embankments. A series of unconfined compressive strength (UCS) and direct shear tests (DST) are carried out to examine the mechanical performance of RM activated with sodium hydroxide (NaOH). While doing so, the influence of NaOH concentrations, curing conditions and curing period are also investigated. Furthermore, durability tests are performed to examine the weathering resistance of stabilized RM specimens against extreme environmental conditions. Finally, the effectiveness of alkali activated RM (as an embankment material) is demonstrated with the help of numerical analysis performed on a model TP. Based on the experimental results, the compressive strength of bare RM is improved from 0.34 MPa to 5.6 MPa, 0.57 MPa to 10.55 MPa and 0.97 MPa to 29.34 MPa under controlled ambient curing (CAC, 25±2 °C), open air curing (OAC, 25±7 °C) and dry curing (DC, 60 °C) conditions respectively. On the other hand, effective friction angle and cohesion of bare RM is found to increase from 16.76° to 52.85° and 6.58 kPa to 391.11 kPa respectively, after alkali activation. Furthermore, alkali activated RM specimens exhibit a significantly high weathering resistance than bare RM against 12 cycles of alternate wetting and drying. The numerical analysis reveals a notable increase in the factor of safety values when alkali activated RM is utilized for the construction of TP, indicating its potential as an embankment material.