Modelling the impact of prescribed global warming on runoff from headwater catchments of the Irrawaddy River and their implications for the water level regime of Loktak Lake, northeast India

Singh, C. R.; Thompson, J. R.; French, Jon; Kingston, Daniel G.; Mackay, Anson W.

doi:10.5194/hess-14-1745-2010

Cited by 44 publications

(51 citation statements)

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“…Higher water levels have restricted the areas where this now occurs, leading to a decline in phumdis thickness and, ultimately, loss of structural stability. Singh et al (2010) have demonstrated that climate change may compound the issues associated with elevated lake water level.…”

Section: Loktak Lakementioning

confidence: 99%

“…This paper initially provides an overview of a water balance model of Loktak Lake and associated catchment hydrological models developed by Singh et al (2010). The water balance model is then used to simulate different options for the operation of the Ithai Barrage that focus on maximizing key ecosystem services, and one that aims to balance the water-level requirements of these different services.…”

Section: Loktak Lakementioning

confidence: 99%

“…The water balance model is then used to simulate different options for the operation of the Ithai Barrage that focus on maximizing key ecosystem services, and one that aims to balance the water-level requirements of these different services. Finally, the sustainability of the barrage operation options in the face of projected climate change is assessed using the scenarios employed by Singh et al (2010) to provide revised terms for the lake water balance model.…”

Section: Loktak Lakementioning

confidence: 99%

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Modelling water-level options for ecosystem services and assessment of climate change: Loktak Lake, northeast India

Singh

Thompson

Kingston

et al. 2011

Hydrological Sciences Journal

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Water levels within Loktak Lake, an internationally important wetland, are regulated to prioritize hydropower over other ecosystem services. High water levels have impacted ecological conditions, in particular floating vegetated islands. Barrage operation options prioritizing hydropower, agriculture and the lake ecosystem are developed using a lake water balance model. Current hydropower abstractions can be maintained without ecologically damaging high water levels. Enhanced agricultural abstractions reduce levels to meet ecological requirements. The latter could be satisfied without compromising current hydropower and agricultural abstractions. An integrated option shows it is largely possible to balance hydropower and agricultural abstractions with wetland water-level requirements. Sustainability of barrage operation options is assessed under climate change scenarios. Higher monsoon precipitation and river flow can be accommodated. Larger dry-season drawdowns impact most barrage operation options, especially the integrated option. Results demonstrate the requirement to consider current and potential future climatic conditions when developing wetland water-level management plans.

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Section: Loktak Lakementioning

confidence: 99%

Section: Loktak Lakementioning

confidence: 99%

Section: Loktak Lakementioning

confidence: 99%

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Modelling water-level options for ecosystem services and assessment of climate change: Loktak Lake, northeast India

Singh

Thompson

Kingston

et al. 2011

Hydrological Sciences Journal

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“…One way to resolve this is to construct coherent spatially-variable, multi-sectoral stories from individual climate model scenarios (as in Arnell et al ( this issue a)), but in order to represent uncertainty it is necessary to build many stories. One major lesson learnt in the QUEST-GSI project from Water Arnell et al (2011), Gosling et al (2010Haddeland et al (2011);Arnell and Gosling (2013), Arnell and Gosling (this issue), Gosling and Arnell (this issue) Catchment-scale ), Arnell (2011), Hughes et al (2011, Kingston and Taylor (2010); Kingston et al (2011);Nobrega et al (2011);Singh et al (2010); Thorne (2011), Xu et al (2011 Agriculture and food Fraser et al (2008;; Osborne et al (2012); Simelton et al (2009;; Dawson et al (2014) Coastal zone Nicholls et al (2011);Brown et al (this issue) Terrestrial ecosystems Gottschalk et al (2012) Human health Lloyd et al (2011);Lloyd et al (2015) presentations to different audiences is that different audiences have different requirements so results need to be presented in a wide variety of ways. Some audiences are more concerned with the ranges of potential impacts and are not concerned with whether the extremes can occur at the same time; others are more concerned with synchronous impacts in different places or sectors.…”

Section: Lessons Learntmentioning

confidence: 99%

The global-scale impacts of climate change: the QUEST-GSI project

Arnell

2016

Climatic Change

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“…Impacts on hydrological processes by climate change, observed or projected, vary between regions and seasons (Kundzewicz et al 2008). Many studies have been carried out on the sensitivity of water resources to temperature (Somura et al 2009, Kingston and Taylor 2010, Singh et al 2010, Xu et al 2012. Although global temperature apparently increases and the hydrological cycle accelerates, the regional patterns of change in hydrological processes induced by warming are more complex and remain uncertain (Hughes 2000, Milly et al 2005.…”

Section: Introductionmentioning

confidence: 99%

Distinct effects of temperature change on discharge and non-point pollution in subtropical southern China by SWAT simulation

Heng

Shaolin

2013

Hydrological Sciences Journal

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Climate change impacts on the availability of water resources. Projection of hydrological response to temperature change is valuable for water management. Such response may be complex and uncertain at the watershed scale and differences may exist between low and high latitudes. A simulation experiment was achieved by using SWAT modelling in the upstream watershed of Dongjiang River, South China. After calibration, the model was found appropriate for hydrological simulation in the study area and was run from 1995 to 2004 under a series of temperature change scenarios to reveal the response of streamflow and loads of sediment and nutrients. For a temperature increase of 3• C, streamflow, sediment and total phosphorus decreased by 5.2, 7.7 and 2.2%, respectively. Linear temperature change seemed to have a linear hydrological response. Nutrient deficiency was still the primary vegetation stress compared with water availability and temperature stress under rising temperatures. Comparison with previous research showed that two southern subtropical watersheds (one upstream and one downstream) gave different hydrological responses. Sediment and inorganic nitrogen loads decreased in the upstream watershed, but increased in the downstream one, when temperature increased. Under the warming scenarios, streamflow and sediment loads decreased throughout the year, especially during the wet season, which is different from results at high latitudes. Nutrient export decreased in April-June, but increased in the remaining months. Simulation results should be applied with caution in water resources management, as simulated climate change had variable hydrological influence in different regions and seasons.Key words temperature change; southern subtropics; streamflow; sediment; nutrient loading; SWAT Effets divers des modifications de température sur le débit et la pollution diffuse dans les régions subtropicales de Chine méridionale par simulation SWAT Résumé Effets du changement climatique sur la disponibilité des ressources en eau. Anticiper les effets hydrologiques des changements de température est utile pour la gestion de l'eau. Une telle réponse peut être complexe et incertaine à l'échelle des bassins versants et il peut exister des différences entre les basses et les hautes latitudes. Une expérience de simulation a été réalisée par une modélisation SWAT de l'amont du bassin versant de la rivière Dongjiang, en Chine méridionale. Après calage, le modèle a été jugé approprié pour la simulation hydrologique dans la zone d'étude, et a on l'a fait tourner de 1995 à 2004 pour une série de scénarios de changement de température afin de déterminer la réponse de l'écoulement et des charges de sédiments et de nutriments. Lorsque la température a été augmentée de 3• C, les débits, les sédiments et le phosphore total ont respectivement diminué de 5,2, 7,7 et 2,2 %. Un changement de température linéaire semble avoir une réponse hydrologique linéaire. La carence en éléments nutritifs s'est révélée être le principal stress pour la ...

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Modelling the impact of prescribed global warming on runoff from headwater catchments of the Irrawaddy River and their implications for the water level regime of Loktak Lake, northeast India

Cited by 44 publications

References 48 publications

Modelling water-level options for ecosystem services and assessment of climate change: Loktak Lake, northeast India

Modelling water-level options for ecosystem services and assessment of climate change: Loktak Lake, northeast India

The global-scale impacts of climate change: the QUEST-GSI project

Distinct effects of temperature change on discharge and non-point pollution in subtropical southern China by SWAT simulation

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