Your search keyword '"water renewal time"' showing total 6 results

1. Reduced precipitation can induce ecosystem regime shifts in lakes by increasing internal nutrient recycling.

Author

Catalan, Jordi, Monteoliva, Agustín P., Vega, José Carlos, Domínguez, Almudena, Negro, Ana I., Alonso, Rocío, Garcés, Blas Valero, Batalla, Meritxell, García-Gómez, Héctor, Leira, Manel, Nuño, Carlos, Pahissa, José, Peg, María, Pla-Rabés, Sergi, Roblas, Neftalí, Vargas, José Luis, and Toro, Manuel

Subjects

CLIMATE change, ECOSYSTEMS, TIME series analysis

Abstract

Eutrophication is a main threat to continental aquatic ecosystems. Prevention and amelioration actions have been taken under the assumption of a stable climate, which needs reconsideration. Here, we show that reduced precipitation can bring a lake ecosystem to a more productive regime even with a decline in nutrient external load. By analyzing time series of several decades in the largest lake of the Iberian Peninsula, we found autocorrelated changes in the variance of state variables (i.e., chlorophyll and oxygen) indicative of a transient situation towards a new ecosystem regime. Indeed, exceptional planktonic diatom blooms have occurred during the last few years, and the sediment record shows a shift in phytoplankton composition and an increase in nutrient retention. Reduced precipitation almost doubled the water residence time in the lake, enhancing the relevance of internal processes. This study demonstrates that ecological quality targets for aquatic ecosystems must be tailored to the changing climatic conditions for appropriate stewardship. [ABSTRACT FROM AUTHOR]

Published

2024

2. Hydrology, biogeochemistry and metabolism in a semi-arid mediterranean coastal wetland ecosystem.

Author

Béjaoui, Béchir, Basti, Leila, Canu, Donata Melaku, Feki-Sahnoun, Wafa, Salem, Hatem, Dahmani, Sana, Sahbani, Sabrine, Benabdallah, Sihem, Blake, Reginald, Norouzi, Hamidreza, and Solidoro, Cosimo

Subjects

BIRD populations, COASTAL wetlands, WATER management, HYDROLOGY, WETLANDS, WETLAND management, EFFECT of human beings on climate change, BIOGEOCHEMISTRY

Abstract

A LOICZ Budget Model is applied to the Ichkeul Lake, a wetland ecosystem of the South Mediterranean-North African region, to evaluate its functioning in order to boost water management. The Ichkeul Lake water and nutrient budget, net ecosystem metabolism (NEM), nutrient availability, and their seasonal changes are estimated using field data. A considerable anthropogenic-driven amount of nitrogen is transferred into N2/N2O to the atmosphere during the dry season with predominance of denitrification-anammox processes. The primary production is impacted by forcing the ecosystem respiration to reduce the NEM so that the system is functioning as heterotrophic. Climate change and anthropogenic pressures are expected to exacerbate the current trends of water quality degradation, with possible negative impacts on Palearctic birds' population. Mitigation actions are possible, through the implementation of National Wetland Management Strategies that include nutrient load and water resources management. [ABSTRACT FROM AUTHOR]

Published

2022

3. Intermittent meromixis controls the trophic state of warming deep lakes.

Author

Lau, Maximilian P., Valerio, Giulia, Pilotti, Marco, and Hupfer, Michael

Subjects

LAKE sediments, VERTICAL mixing (Earth sciences), GLOBAL warming, BIOGEOCHEMICAL cycles, PROBABILITY theory

Abstract

Vertical mixing modulates nutrient dynamics in lakes. However, surface warming reduces the range of vertical mixing and the probability of full circulation events. Important consequences of reduced vertical mixing include the sequestration of phosphorus (P) within a stagnant zone and the promotion of oligotrophication. Nevertheless, warming-induced shifts from full to partial mixing (meromixis) are not permanent and are partially reversible during exceptionally cold or windy winters. In this study, we investigated how intermittent meromixis affects lake P budgets. We examined the P cycle of a perialpine lake with variable mixing depths by pairing sedimentation and release flux measurements with sedimentary archives. We found that the amount of dissolved P surpassed that of the potentially mobile P in the sediments by a 13:1 ratio. At least 55% of the settled P was rapidly released to bottom waters isolated from flushing, illustrating the general biogeochemical mechanism that promotes deep-water P storage when lakes undergo warming. This storage process is abruptly inverted when meromixis suddenly retreats, deeper mixing introduces P pulses to the surface waters, thereby promoting phytoplankton proliferation. Our estimates showed that lakes containing up to 40% of the global freshwater volume could shift towards intermittent meromixis if the atmospheric warming trend continues. Thus, these lakes might accumulate 0–83% of their P load in irregularly circulating waters and are prone to large P pulses. [ABSTRACT FROM AUTHOR]

Published

2020

4. Dissolved organic carbon contribution to oxygen respiration in the central Red Sea.

Author

Calleja, Maria Ll., Al-Otaibi, Najwa, and Morán, Xosé Anxelu G.

Abstract

In oligotrophic waters, dissolved organic carbon (DOC) is mostly produced in the surface layers by phytoplankton and remineralized by heterotrophic prokaryotes throughout the water column. DOC surface excess is subducted and exported to deeper layers where a semi-labile fraction is further processed contributing to oxygen consumption. How this cycling of DOC occurs in the Red Sea, one of the warmest oligotrophic marine basins, is virtually unknown. We examined DOC vertical and seasonal variability in a mesopelagic station (ca. 700 m depth) of the central Red Sea performing monthly profile samplings over a two-year period. Together with DOC vertical and seasonal distribution we evaluated the interaction with heterotrophic prokaryotes and contribution to oxygen respiration. DOC values ranged from 41.4 to 95.4 µmol C L−1, with concentrations in the epipelagic (70.0 ± 7.5 µmol C L−1) 40% higher on average than in the mesopelagic (50.7 ± 4.1 µmol C L−1). Subduction of seasonally accumulated semi-labile DOC was estimated to be responsible for ∼20% of the oxygen consumption mostly occurring at the low epipelagic-upper mesopelagic boundary layer. Variability in mesopelagic waters was higher than expected (ca. 20 µmol C L−1) evidencing a more active realm than previously thought, with consequences for carbon sequestration. [ABSTRACT FROM AUTHOR]

Published

2019

5. Homogenised daily lake surface water temperature data generated from multiple satellite sensors: A long-term case study of a large sub-Alpine lake.

Author

Pareeth, Sajid, Salmaso, Nico, Adrian, Rita, and Neteler, Markus

Published

2016

6. Distinguishing between sea turtle foraging areas using stable isotopes from commensal barnacle shells

Author

Pearson, Ryan M., van de Merwe, Jason P., Gagan, Michael K., Limpus, Colin J., and Connolly, Rod M.

Published

2019