Assessing the Impact of Long-Term ENSO, SST, and IOD Dynamics on Extreme Hydrological Events (EHEs) in the Kelani River Basin (KRB), Sri Lanka

Wijeratne, V. P. I. S.; Li, Gang; Mehmood, Muhammad Sajid; Abbas, Adnan

doi:10.3390/atmos14010079

Cited by 19 publications

(16 citation statements)

References 48 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Hydro-geomorphological events (namely, floods, debris flows, and landslides) affect urban environments worldwide, causing relevant disasters with increasing frequency and magnitude [1][2][3][4][5][6][7][8]. This is a direct consequence of two processes: climate change driven by the burning of fossil fuels in production systems [9][10][11] and uncontrolled or poorly planned urbanization in hazardous areas [11][12][13].…”

Section: Discussionmentioning

confidence: 99%

Tracking a Decade of Hydrogeological Emergencies in Italian Municipalities

Gatto,

Clò,

Martellozzo

et al. 2023

Data

View full text Add to dashboard Cite

This dataset collects tabular and geographical information about all hydrogeological disasters (landslides and floods) that occurred in Italy from 2013 to 2022 that caused such severe impacts as to require the declaration of national-level emergencies. The severity and spatiotemporal extension of each emergency are characterized in terms of duration and timing, funds requested by local administrations, funds approved by the national government, and municipalities and provinces hit by the event (further subdivided between those included in the emergency and those not, depending on whether relevant impacts were ascertained). Italian exposure to hydrogeological risk is portrayed strikingly: in the covered period, 123 emergencies affected Italy, all regions were struck at least once, and some provinces were struck more than 10 times. Damage declared by local institutions adds up to EUR 11,000,000,000, while national recovery funds add up to EUR 1,000,000,000. The dataset may foster further research on risk assessment, econometric analysis, public policy support, and decision-making implementation. Moreover, it provides systematic evidence helpful in raising awareness about hydrogeological risks affecting Italy.

show abstract

Section: Discussionmentioning

confidence: 99%

Tracking a Decade of Hydrogeological Emergencies in Italian Municipalities

Gatto,

Clò,

Martellozzo

et al. 2023

Data

View full text Add to dashboard Cite

show abstract

“…A plethora of research has indicated that climate change has profound effects on agricultural production (Schlenker and Roberts, 2009). The rise in global average temperatures, changes in precipitation patterns, and an increase in the frequency and intensity of extreme weather events have all significantly affected agricultural production (Schlenker and Lobell, 2010;Lobell and Gourdji, 2012;Wijeratne et al, 2022;. Without effective measures in the coming decades, climate change poses a serious threat to crop yields, food security, and agricultural livelihoods (Challinor et al, 2014;Ray et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

Can fiscal expenditure for agriculture mitigate the impact of climate change on agricultural production?

Hao,

Yang,

et al. 2024

Front. Sustain. Food Syst.

View full text Add to dashboard Cite

The profound impact of climate change on agricultural production, and the government’s fiscal expenditure for agriculture, is considered a crucial means to address this challenge. This study utilizes panel data from all prefecture-level cities in Heilongjiang Province from 2000 to 2020. Drawing upon the Cobb–Douglas production function, an economic climate model is constructed to empirically analyze the impact of climate change on grain yield in Heilongjiang Province. Furthermore, the role of fiscal expenditure for agriculture in mitigating the effects of climate change on grain yield is explored. Feasible Generalized Least Squares (FGLS) estimation is employed to address issues of “heteroscedasticity,” “autocorrelation within groups,” and “cross-sectional contemporaneous correlation” present in the model. The results indicate that climate change has a positive impact on rice and corn yields, while exhibiting a negative impact on wheat yield. The influence of climate change on crop yield is both linear and nonlinear. Specifically, temperature demonstrates a linear relationship with rice and corn yields, whereas precipitation shows a significant inverted U-shaped relationship with rice and corn yields. The impact of climate change on grain production in Heilongjiang Province varies significantly across regions. Fiscal expenditure for agriculture has a significant positive effect on the yield of major grain crops in Heilongjiang Province. In addressing the impact of climate change on grain production, agricultural fiscal expenditure enhances the positive effect of precipitation on rice and corn yields, while diminishing the positive impact of temperature on corn yield.

show abstract

“…In particular, precipitation is an important component of the global hydrological cycle. The United Nations Intergovernmental Panel on Climate Change (IPCC) in the Sixth Assessment Synthesis Report (IPCC, 2023) clearly pointed out that due to human activities and high-speed industrial development in recent years leading to a yearly increase in the concentration of greenhouse gases, the average global surface temperature increased by approximately 1.09 °C in just 10 years (2011)(2012)(2013)(2014)(2015)(2016)(2017)(2018)(2019)(2020), global warming will certainly accelerate the hydrological cycle, extreme precipitation events are bound to become more frequent (Adnan et al, 2022;Awais Naeem et al, 2022;Muhammad et al, 2022;Wijeratne Vithana et al, 2022;Abbas et al, 2023b;Waheed et al, 2023), and the average precipitation will increase slightly. With global warming, precipitation events are often prone to intensifying in some regions.…”

Section: Introductionmentioning

confidence: 99%

Climate change impacts on precipitation and water resources in Northwestern China

Zheng,

Chen,

et al. 2024

Front. Environ. Sci.

View full text Add to dashboard Cite

A statistical analysis is conducted on the hourly precipitation at 105 national meteorological stations in the Xinjiang region of China from 2011 to 2020. The purpose of this analysis is to determine the total quantity of precipitation during the warm and cold seasons, as well as the precipitation frequency at each station. The results of the analysis indicate that there is a more pronounced inter-annual variation in precipitation during the warm and cold seasons in Xinjiang, where the total amount of precipitation during the warm season is significantly higher than that during the cold season, with the warm season experiencing at least twice as much precipitation. In terms of the inter-annual incremental amount of precipitation, both the warm and cold seasons exhibit a trend of increasing and then decreasing over the years. However, the curvature change is more prominent in the cold season compared to the warm season, suggesting that the inter-annual variation in precipitation during the warm season remains relatively stable. The spatial distribution characteristics of the total precipitation in Xinjiang indicate that warm-season precipitation is more scattered, while cold-season precipitation is mainly concentrated in the northern region of the territory. This pattern holds true at low, medium, medium–high, and high altitudes. The cumulative precipitation during the warm season is always higher than that in the cold season, and this difference becomes more prominent with increasing altitude. This indicates that warm-season precipitation in Xinjiang is closely related to its complex topographic structure, particularly the convective weather generated by topographic clouds. On the other hand, precipitation in the cold season is mainly concentrated in the low- and medium-altitude stations, and there is not much correlation between precipitation and altitude. Precipitation is mainly affected by the mesoscale and the direct influence of large-scale weather systems. Analysis of precipitation in extreme moments reveals that during the warm season, extreme precipitation events occur mainly from the evening to early morning (19:00–03:00 the next day), accounting for 75.24% of the 105 stations. In contrast, during the cold season, extreme precipitation events occur between 03:00 and 18:00, corresponding to 74.29% of the stations. The relationship between precipitation and altitude differs in the warm and cold seasons. In the warm season, there is a linear relationship between precipitation and altitude, with a slope of 0.72 and a correlation coefficient of 0.52, indicating that precipitation increases with increasing altitude. However, in the cold season, the linear relationship between precipitation and altitude is very inconspicuous, with a slope of −0.05 and a correlation coefficient of −0.05, suggesting that there is no significant relationship between precipitation and altitude during this season. These findings provide valuable insights into the changing patterns of precipitation gradients at different altitudes and seasons in Xinjiang. This information can be used for the site selection of smokestack operations in high-altitude areas and for ground and air weather modification operations in low-altitude areas. Additionally, these data contribute to the understanding of precipitation patterns in Xinjiang, further improving the effectiveness of weather modification efforts and increasing the utilization of airborne water resources.

show abstract

Assessing the Impact of Long-Term ENSO, SST, and IOD Dynamics on Extreme Hydrological Events (EHEs) in the Kelani River Basin (KRB), Sri Lanka

Cited by 19 publications

References 48 publications

Tracking a Decade of Hydrogeological Emergencies in Italian Municipalities

Tracking a Decade of Hydrogeological Emergencies in Italian Municipalities

Can fiscal expenditure for agriculture mitigate the impact of climate change on agricultural production?

Climate change impacts on precipitation and water resources in Northwestern China

Contact Info

Product

Resources

About