Your search keyword '"Zhengwen Liu"' showing total 8 results

1. Effects of Sediments Phosphorus Inactivation on the Life Strategies of Myriophyllum spicatum: Implications for Lake Restoration

Author

Baohua Guan, Yishu Fu, Guolong Yu, Zhenmei Lin, Zhengwen Liu, Jinlei Yu, and Chen Zhong

Subjects

0106 biological sciences, Geography, Planning and Development, chemistry.chemical_element, 010501 environmental sciences, Aquatic Science, lake restoration, 01 natural sciences, Biochemistry, Mesocosm, Nutrient, submerged macrophytes, Phoslock®, Phoslock, TD201-500, 0105 earth and related environmental sciences, Water Science and Technology, Biomass (ecology), Myriophyllum, biology, Water supply for domestic and industrial purposes, Chemistry, Myriophyllum spicatum, 010604 marine biology & hydrobiology, Phosphorus, Hydraulic engineering, biology.organism_classification, Macrophyte, Environmental chemistry, Eutrophication, internal loading control, TC1-978

Abstract

Eutrophication often results in the loss of submerged vegetation in shallow lakes and turns the lake to be a turbid state. Recovery of submerged macrophytes is the key in the restoration of shallow eutrophic lakes to create a clear water state. However, internal loading control was considered as the critical process for the recovery of submerged macrophytes in shallow lakes after the external nutrient reduction. Phoslock® (Lanthanum modified bentonite) is a useful passivation material in controlling the internal loadings (release of phosphorus from the sediments), which was applied to restore the eutrophic lakes. However, the effects of Phoslock® on the growth and life strategies of submerged macrophytes are less focused so far. In the present study, we studied the responses in the growth and morphological characteristics of Myriophyllum spicatum to the addition of Phoslock® to the sediments. Our results showed that the addition of Phoslock® significantly decreased the contents of bioavailable forms of phosphorus in the sediments, such as redox-sensitive phosphorus bound to Fe and Mn compounds (BD–P), phosphorus bound to aluminum (Al–P) and organic phosphorus (Org–P). However, the concentration of the non-bioavailable forms of phosphorus in the sediments, such as calcium bound phosphorus (Ca–P), increased significantly in the Phoslock® treatments compared with the controls. At the end of the experiments, the total biomass, aboveground biomass and relative growth rate (RGR) of M. spicatum decreased significantly in the Phoslock® mesocosms compared with the controls. In contrast, the wet root biomass, root–shoot biomass ratio, root numbers and root length of M. spicatum were significantly higher in the Phoslock® treatments than that in the controls. Our results indicated that the growth of M. spicatum was suppressed by the addition of Phoslock®, and thus the biomass was decreased, however, the increase of root biomass might be beneficial to the inhibition of phosphorus release and resuspension of sediments and to the restoration of the lake ecosystem.

Published

2021

2. Changes in Pelagic Fish Community Composition, Abundance, and Biomass along a Productivity Gradient in Subtropical Lakes

Author

Jinlei Yu, Yongdong Zhang, Lingyang Kong, Hu He, Xiangdong Yang, Erik Jeppesen, Min Zhang, Wei Zhen, Zhengwen Liu, and Feizhou Chen

Subjects

0106 biological sciences, lcsh:Hydraulic engineering, chlorophyll a, Chlorophyll a, Geography, Planning and Development, Population, fish community structure, Aquatic Science, 010603 evolutionary biology, 01 natural sciences, Biochemistry, Yangtze River basin, lcsh:Water supply for domestic and industrial purposes, lcsh:TC1-978, Total phosphorus, Shallow lake, education, Fish community structure, Water Science and Technology, lcsh:TD201-500, Biomass (ecology), education.field_of_study, lake eutrophication, biology, Ecology, 010604 marine biology & hydrobiology, Sharpbelly, Hemiculter, Pelagic zone, Catch per unit effort, biology.organism_classification, total phosphorus, Productivity (ecology), Lake eutrophication, shallow lake, Species richness

Abstract

How fish communities change with eutrophication in temperate lakes is well documented, while only a few studies are available from subtropical lakes. We investigate the fish community structure in 36 lakes located in the Yangtze River basin, covering a wide nutrient gradient. We found that fish species richness and total fish catch per unit effort (CPUE) increased significantly with chlorophyll a (Chla). Among the different feeding types, the proportion of zooplanktivores increased significantly with Chla, while the percentage of omnibenthivores showed no obvious changes, the CPUE of piscivorous Culter spp. increased with Chla, while their proportion of total catch decreased pronouncedly. Based on the index of relative importance (IRI), the most important and dominant fish species was the zooplanktivorous Sijiao (Toxabramis swinhonis), followed by the omniplanktivorous sharpbelly (Hemiculter leucisculus) and the omnibenthivorous crucian carp (Carassius carassius), a small-sized species belonging to the Cyprinidae family. The CPUE of these three species increased significantly with Chla. The focus has, so far, been directed at large fish, but as emphasized by our results, the abundant small fish species were dominant in our subtropical study lakes even in terms of biomass, and, accordingly, we recommend that more attention be paid to the population dynamics of these species in the future.

Published

2021

3. Effects of Diversity, Coverage and Biomass of Submerged Macrophytes on Nutrient Concentrations, Water Clarity and Phytoplankton Biomass in Two Restored Shallow Lakes

Author

Pingping Liu, Yiming Gao, Yu Zhao, Wei Zhen, Chunyu Yin, Zhaoxia Wang, Baohua Guan, Yao-Hui Hu, Zhengwen Liu, and Jinlei Yu

Subjects

0106 biological sciences, lcsh:Hydraulic engineering, Geography, Planning and Development, Subtropics, 010501 environmental sciences, Aquatic Science, lake restoration, 01 natural sciences, Biochemistry, water quality, meadow-forming, lcsh:Water supply for domestic and industrial purposes, Nutrient, lcsh:TC1-978, Dominance (ecology), path analysis, 0105 earth and related environmental sciences, Water Science and Technology, lcsh:TD201-500, Myriophyllum, biology, Ecology, 010604 marine biology & hydrobiology, canopy-forming, biology.organism_classification, Macrophyte, Transplantation, Shannon–Wiener index, Environmental science, Water quality, Species richness

Abstract

Transplantation of submerged macrophytes to restore shallow lakes has been used as an effective measure to maintain a clear water state. Water quality is highly correlated with submerged macrophytes community, however, the relationships between water quality and the diversity, coverage and biomass of submerged macrophytes are, so far, not yet well studied. We analyzed the correlations of nutrient concentrations, water clarity and phytoplankton biomass with the metrics of submerged macrophytes community in two Chinese restored shallow subtropical lakes, Lake Wuli (Wuli-E, 5 ha) and Lake Qinhu (Qin-E, 8 ha). A similar biomass of submerged macrophytes was transplanted into each lake, while both the species richness and coverage of macrophytes in Qin-E were lower than Wuli-E. After a 1&ndash, 2-year restoration, the diversity almost had no change, but the biomass density and coverage decreased in Wuli-E. As for Qin-E, the coverage of submerged macrophytes increased but biomass density and diversity decreased. The dominance of canopy-forming submerged macrophyte species Myriophyllum spicatum was observed in Qin-E and less meadow-forming biomass and species was observed than that in Wuli-E. Moreover, it was also observed that Wuli-E had a better water quality than that of Qin-E after transplantation. Path analysis results showed that macrophyte coverage and the diversity related to meadow-forming species (e.g., Vallisneria spinulosa) had strong effects on enhancing clarity and reducing nutrient concentrations. But the high biomass density accompanied by the canopy-forming species like M. spicatum was unfavorable for controlling nutrients. Our results provide important insight into the different roles that macrophyte diversity, biomass and coverage play in improving water clarity and controlling nutrient concentrations. This new knowledge will be instrumental in implementing more effective lake restoration, especially using macrophyte transplantation as a restoration tool in warm shallow lakes.

Published

2020

4. Effects of Lanthanum Modified Bentonite and Polyaluminium Chloride on the Environmental Variables in the Water and Sediment Phosphorus Form in Lake Yanglan, China

Author

Jinlei Yu, Xiaolin He, Lei Gan, Zhengwen Liu, Xiumei Zhang, Chen Zhong, and Ling Su

Subjects

Chlorophyll a, 0208 environmental biotechnology, Geography, Planning and Development, sediment phosphorus forms, chemistry.chemical_element, 02 engineering and technology, lake restoration, 010501 environmental sciences, Aquatic Science, water quality, 01 natural sciences, Biochemistry, Apatite, chemistry.chemical_compound, lanthanum-modified bentonite, Lanthanum, TD201-500, 0105 earth and related environmental sciences, Water Science and Technology, Total suspended solids, Water supply for domestic and industrial purposes, Chemistry, Phosphorus, food and beverages, Hydraulic engineering, polyaluminium chloride, 020801 environmental engineering, Environmental chemistry, Polyaluminium chloride, visual_art, Bentonite, visual_art.visual_art_medium, Water quality, TC1-978

Abstract

The application of lanthanum modified bentonite (Phoslock®) and polyaluminium chloride (PAC) is popular in the restoration of European temperate lakes, however, the effects of the application on the concentrations of phosphorus (P) in both the water and the sediments have been poorly evaluated to date. We studied the effects of the application of Phoslock® + PAC on the concentrations of total phosphorus (TP), particulate phosphorus (PP), soluble reactive phosphorus (SRP), total suspended solids (TSS) and chlorophyll a (Chla) in the water, and different P forms in the sediments, in an isolated part of Lake Yanglan. The results showed that the concentrations of TP, PP, SRP, TSS and Chla decreased significantly after the addition of Phoslock® + PAC. Moreover, the concentrations of labile-P, reductant-soluble-P and organic-P in the sediments were also significantly decreased after the Phoslock® + PAC application. However, the concentrations of both the stable apatite-P and residual-P in the sediments after application of Phoslock® + PAC were much higher than the pre-addition values, while the concentrations of metal-oxide-P did not differ significantly between the pre- and post- application conditions. Our findings imply that the combined application of Phoslock® and PAC can be used in the restoration of subtropical shallow lakes, to reduce the concentrations of P in the water and suppress the release of P from the sediments.

Published

2021

5. Crucian Carp (Carassius carassius) Strongly Affect C/N/P Stoichiometry of Suspended Particulate Matter in Shallow Warm Water Eutrophic Lakes

Author

Zhengwen Liu, Jinlei Yu, Yanqing Han, Hu He, Erik Jeppesen, Kuanyi Li, and Qisheng Li

Subjects

0106 biological sciences, lcsh:Hydraulic engineering, Carassius carassius, Geography, Planning and Development, 010501 environmental sciences, Aquatic Science, 01 natural sciences, Biochemistry, Mesocosm, crucian carp, lcsh:Water supply for domestic and industrial purposes, lcsh:TC1-978, Aquatic plant, Phytoplankton, 14. Life underwater, 0105 earth and related environmental sciences, Water Science and Technology, lcsh:TD201-500, biology, Chemistry, 010604 marine biology & hydrobiology, shallow lakes, Seston, C/N/P stoichiometry, Plankton, biology.organism_classification, suspended particulate matter, eutrophication, 13. Climate action, Environmental chemistry, Crucian carp, Eutrophication

Abstract

Crucian carp (Carassius carassius) is a key fish species in most Chinese subtropical and tropical shallow lakes. Through sediment feeding, crucian carp could greatly change water turbidity and nutrient levels, as well as the abundance of herbivorous consumers, which may have important influences on seston element stoichiometry. However, so far, experimental studies on this topic are lacking. We conducted a 36-day mesocosm experiment to explore the effects of crucian carp on water physicochemical and biological properties, and C/N/P ratios in suspended particulate matter (SPM) under eutrophic conditions. Our results provided three major findings: (1) Crucian carp resuspended sediments and along with them, reduced light penetration and lower light/total phosphorus (TP) ratios. (2) Crucian carp reduced biomasses of both zooplankton and macrozoobenthos, whereas their effect on phytoplankton was weak, potentially because of resuspension-induced light limitation. (3) Both C/P and N/P ratios in SPM were significant lower in mesocosms with crucian carp than in fish-free controls, which may be attributed to the high contribution of P-rich sediments and low light to nutrient supply caused by fish-induced resuspension. Our results suggest that besides planktivorous fish, benthivore (e.g., crucian carp) in warm shallow waters could also affect pelagic C/N/P stoichiometry via sediment feeding, which may further influence energy transfer efficiency in lake food chain.

Published

2019

6. Lake Restoration and Management in a Climate Change Perspective: An Introduction

Author

Erik Jeppesen, Martin Søndergaard, and Zhengwen Liu

Subjects

worldwide, lcsh:TD201-500, lcsh:Hydraulic engineering, lcsh:Water supply for domestic and industrial purposes, lcsh:TC1-978, lakes, climate change, stressors, lake restoration

Abstract

Lakes all around the globe are under severe pressure due to an increasing anthropogenic impact from a growing population in a more developed world. Accordingly, today, many lakes are highly eutrophic and suffer from severe blooms of often toxic cyanobacteria and may become even more eutrophic in the future unless strong lake management actions are taken. Recent research has further shown that global warming and subsequent changes in water use will further exacerbate the eutrophication process in lakes. There is therefore a growing demand for lake restoration and insight into sustainable lake management. The measures to be taken, however, depend on the climate and other local conditions. This special issue addresses lake restoration and management with special emphasis on the restoration of eutrophicated lakes within a climate change perspective. The papers included collectively highlight that the ongoing climate change affects lake water quality by (1) changes in external and internal nutrient loading; (2) higher frequency of extreme events (such as hurricanes); (3) temperature‐induced changes in biota, biotic interactions; and (4) water level. Lower nutrient loading is therefore needed in a future warmer world to achieve the same ecological state as today. Several papers discuss lake restoration methods within a climate change perspective and show practical results, notably of various attempts of biomanipulation. Finally, some papers discuss the effects of other anthropogenic stressors and their interaction with climate.

Published

2017

7. Herbivory of Omnivorous Fish Shapes the Food Web Structure of a Chinese Tropical Eutrophic Lake: Evidence from Stable Isotope and Fish Gut Content Analyses

Author

Erik Jeppesen, Zhengwen Liu, Ping Zhong, Jian Gao, and Jiajia Ning

Subjects

0106 biological sciences, omnivore, lcsh:Hydraulic engineering, tropical lake, Geography, Planning and Development, Aquatic Science, Biology, 010603 evolutionary biology, 01 natural sciences, Biochemistry, Zooplankton, lcsh:Water supply for domestic and industrial purposes, lcsh:TC1-978, stable isotope analysis, 14. Life underwater, Periphyton, Trophic cascade, Water Science and Technology, Trophic level, Isotope analysis, lcsh:TD201-500, Detritus, Ecology, herbivory, 010604 marine biology & hydrobiology, food web structure, Food web, Macrophyte, 13. Climate action

Abstract

Studies suggest that, unlike the situation in temperate lakes, high biomasses of omnivorous fish are maintained in subtropical and tropical lakes when they shift from a turbid phytoplankton-dominated state to a clear water macrophyte-dominated state, and the predation pressure on large-bodied zooplankton therefore remains high. Whether this reflects a higher degree of herbivory in warm lakes than in temperate lakes is debatable. We combined food web studies using stable isotopes with gut content analyses of the most dominant fish species to elucidate similarities and differences in food web structure between a clear water macrophyte-dominated basin (MDB) and a turbid phytoplankton-dominated basin (PDB) of Huizhou West Lake, a shallow tropical Chinese lake. The δ13C–δ15N biplot of fish and invertebrates revealed community-wide differences in isotope-based metrics of the food webs between MDB and PDB. The range of consumer δ15N (NR) was lower in MDB than in PDB, indicating shorter food web length in MDB. The mean nearest neighbor distance (MNND) and standard deviation around MNND (SDNND) were higher in MDB than in PDB, showing a markedly low fish trophic overlap and a more uneven packing of species in niches in MDB than in PDB. The range of fish δ13C (CR) of consumers was more extensive in MDB than in PDB, indicating a wider feeding range for fish in MDB. Mixing model results showed that macrophytes and associated periphyton constituted a large fraction of basal production sources for the fish in MDB, while particulate organic matter (POM) contributed a large fraction in PDB. In MDB, the diet of the dominant fish species, crucian carp (Carassius carassius), consisted mainly of vegetal matter (macrophytes and periphyton) and zooplankton, while detritus was the most important food item in PDB. Our results suggest that carbon from macrophytes with associated periphyton may constitute an important food resource for omnivorous fish, and this may strongly affect the feeding niche and the strength of the top-down trophic cascade between fish and zooplankton in the restored, macrophyte-dominated basin of the lake. This dual effect (consumption of macrophytes and zooplankton) may reduce the chances of maintaining the clear water state at the prevailing nutrient levels in the lake, and regular removal of large crucian carp may therefore be needed to maintain a healthy ecosystem state.

Published

2017

8. Effects of Exposed Artificial Substrate on the Competition between Phytoplankton and Benthic Algae: Implications for Shallow Lake Restoration

Author

Zhengwen Liu, Kuanyi Li, Hu He, Hui Jin, Jiao Gu, Xuguang Luo, and Erik Jeppesen

Subjects

0106 biological sciences, lcsh:Hydraulic engineering, Geography, Planning and Development, 010501 environmental sciences, Aquatic Science, 01 natural sciences, Biochemistry, artificial substrate, phytoplankton, benthic algae, resource competition, shallow lakes, Mesocosm, Water column, lcsh:Water supply for domestic and industrial purposes, lcsh:TC1-978, Phytoplankton, Periphyton, 0105 earth and related environmental sciences, Water Science and Technology, lcsh:TD201-500, Ecology, 010604 marine biology & hydrobiology, fungi, Plankton, Substrate (marine biology), Benthic zone, Environmental chemistry, Environmental science, Eutrophication

Abstract

Phytoplankton and benthic algae coexist in shallow lakes and the outcome of the competition between these two photoautotrophs can markedly influence water clarity. It is well established that exposed artificial substrate in eutrophic waters can remove nutrients and fine particles from the water column via the attached periphyton canopy. However, the effects of the introduction of artificial substrate on the competition between planktonic and benthic primary producers remain to be elucidated. We conducted a short-term outdoor mesocosm experiment to test the hypothesis that the nutrient and light changes induced by exposed artificial substrate (polythene nets) would benefit the benthic algae. Artificial substrate significantly reduced total nitrogen and phosphorus concentrations and water clarity improved, the latter due to the substrate-induced reduction of both organic and inorganic suspended solids. Consequently, as judged from changes in chlorophyll a (Chl-a) concentrations in water and sediment, respectively, exposed artificial substrate significantly reduced the phytoplankton biomass, while benthic algae biomass increased. Our results thus indicate that exposed artificial substrate may be used as a tool to re-establish benthic primary production in eutrophic shallow lakes after an external nutrient loading reduction, paving the way for a benthic- or a macrophyte-dominated system. Longer term and larger scale experiments are, however, needed before any firm conclusions can be drawn on this.

Published

2017