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"Conservation of Water Resources"
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The recovery of European freshwater biodiversity has come to a halt
Owing to a long history of anthropogenic pressures, freshwater ecosystems are among the most vulnerable to biodiversity loss. Mitigation measures, including wastewater treatment and hydromorphological restoration, have aimed to improve environmental quality and foster the recovery of freshwater biodiversity. Here, using 1,816 time series of freshwater invertebrate communities collected across 22 European countries between 1968 and 2020, we quantified temporal trends in taxonomic and functional diversity and their responses to environmental pressures and gradients. We observed overall increases in taxon richness (0.73% per year), functional richness (2.4% per year) and abundance (1.17% per year). However, these increases primarily occurred before the 2010s, and have since plateaued. Freshwater communities downstream of dams, urban areas and cropland were less likely to experience recovery. Communities at sites with faster rates of warming had fewer gains in taxon richness, functional richness and abundance. Although biodiversity gains in the 1990s and 2000s probably reflect the effectiveness of water-quality improvements and restoration projects, the decelerating trajectory in the 2010s suggests that the current measures offer diminishing returns. Given new and persistent pressures on freshwater ecosystems, including emerging pollutants, climate change and the spread of invasive species, we call for additional mitigation to revive the recovery of freshwater biodiversity.
Journal Article
Why we need a new economics of water as a common good
Anthropogenic pressures and climate change are altering water flows worldwide. Better understanding, new economic thinking and an international governance framework are needed to stave off catastrophe.
Anthropogenic pressures and climate change are altering water flows worldwide. Better understanding, new economic thinking and an international governance framework are needed to stave off catastrophe.
Wide angle view of a large storm cloud over the Amazon river and rainforest
Journal Article
Cape Town’s drought: don’t blame climate change
People, politics and poor planning are behind most urban water shortages, argues Mike Muller.
People, politics and poor planning are behind most urban water shortages, argues Mike Muller.
Journal Article
How to address agriculture’s water woes
Water isn’t the only challenge facing agriculture in a climate-altered future, but a lack of it could have catastrophic effects.
Water isn’t the only challenge facing agriculture in a climate-altered future, but a lack of it could have catastrophic effects.
An almond grower inspects his almond crop on a sunny day
Journal Article
Reversing wetland death from 35,000 cuts: Opportunities to restore Louisiana’s dredged canals
We determined the number of permits for oil and gas activities in 14 coastal Louisiana parishes from 1900 to 2017, compared them to land loss on this coast, and estimated their restoration potential. A total of 76,247 oil and gas recovery wells were permitted, of which 35,163 (46%) were on land (as of 2010) and 27,483 of which are officially abandoned. There is a direct spatial and temporal relationship between the number of these permits and land loss, attributable to the above and belowground changes in hydrology resulting from the dredged material levees placed parallel to the canal (spoil banks). These hydrologic modifications cause various direct and indirect compromises to plants and soils resulting in wetland collapse. Although oil and gas recovery beneath southern Louisiana wetlands has dramatically declined since its peak in the early 1960s, it has left behind spoil banks with a total length sufficient to cross coastal Louisiana 79 times from east to west. Dragging down the remaining material in the spoil bank back into the canal is a successful restoration technique that is rarely applied in Louisiana, but could be a dramatically cost-effective and proven long-term strategy if political will prevails. The absence of a State or Federal backfilling program is a huge missed opportunity to: 1) conduct cost-effective restoration at a relatively low cost, and, 2) conduct systematic restoration monitoring and hypothesis testing that advances knowledge and improves the efficacy of future attempts. The price of backfilling all canals is about $335 million dollars, or 0.67% of the State's Master Plan for restoration and a pittance of the economic value gained from extracting the oil and gas beneath over the last 100 years.
Journal Article
Which construal level combinations generate the most effective interventions? A field experiment on energy conservation
Many campaigns targeting pro-environmental behavior combine multiple approaches without properly understanding how these different approaches interact. Here we study the effect of such combinations. We apply construal level theory to classify different intervention approaches, which can either be at a high construal level (abstract and distant) or at a low construal level (concrete and proximal). In a field experiment we recruited 197 students living in one-person apartments in an all-inclusive student housing facility. We objectively measured their individual electricity and warm water use, and measured psychological variables through surveys. We expected that the (commonly considered superior) combination between a high and a low construal level approach would be least effective. Participants were randomly assigned to a 2(Construal Level: low vs. high) × 2(Social Distance: low vs. high) plus control condition mixed-model design targeting a reduction in warm water use. Our findings suggest that a congruent combination at a high construal level (i.e., the high construal level condition combined with the high social distance condition) has the largest effect on warm water use and that spillover to electricity use is most likely to occur when a high construal level is used (i.e., high social distance). Moreover, especially participants who valued nature and the environment less were most strongly influenced by the combination of two high construal level approaches. In sum, our study suggests that when designing interventions one should consider the construal level and when targeting pro-environmental behavior high construal levels appear most appropriate.
Journal Article
Laser land leveling technology for paddy production in Vietnam: impact on efficient irrigation and water conservation
This research investigates the empirical effects of the laser land leveling (LLL) adoption on irrigation water and water efficiency in paddy production in the Mekong Delta region (MDR), using the randomized controlled trial (RCT) approach incorporated into input demand function models. The descriptive analysis highlights the potential for water reuse through farmers’ drainage practices. However, the dependence on experiential methods for applying technology in paddy production poses challenges that could compromise long-term sustainability. The regression results indicate that the LLL treatment leads to savings of 1975 m
3
ha
−1
and 1299.35 m
3
ha
−1
in irrigation water and net water use in paddy production, respectively, compared to the control. These savings account for 20.52% of total irrigation water use and 28.64% of net water use. The projected savings on average are 375.51 and 247.05 million m
3
, respectively, for irrigation water and net water use with 5% implementation of the technology in the MDR. The research highlights the environmental benefits of the LLL technology and underscores the need for its promotion to achieve water conservation in paddy production, offering policymakers insights to enhance sustainable agriculture amid climate change and water scarcity. The study addresses significant gaps in the existing literature by providing an in-depth analysis of LLL technology’s impact on irrigation water and efficiency by extending the drainage performance within the paddy mono-cropping context and employing RCT methodology combined with input demand function models to comprehensively evaluate its impact on irrigation water usage.
Journal Article
As the UN meets, make water central to climate action
Managing water and climate in tandem would protect water resources, reduce disaster risks, lower greenhouse-gas emissions and assure equitable access.
Managing water and climate in tandem would protect water resources, reduce disaster risks, lower greenhouse-gas emissions and assure equitable access.
Credit: Zabed Hasnain Chowdhury/SOPA Images/LightRocket via Getty
People cross a flooded road after the landfall of cyclone Amphan in Satkhira, Bangladesh.
Journal Article