Your search keyword '"Wang, Hong-Zhu"' showing total 12 results

1. Macroinvertebrate responses to regime shifts caused by eutrophication in subtropical shallow lakes

Author

Pan, Bao-Zhu, Wang, Hong-Zhu, Pusch, Martin T., and Wang, Hai-Jun

Published

2015

2. Higher Tolerance of Canopy-Forming Potamogeton crispus Than Rosette-Forming Vallisneria natans to High Nitrogen Concentration as Evidenced From Experiments in 10 Ponds With Contrasting Nitrogen Levels.

Author

Yu, Qing, Wang, Hong-Zhu, Xu, Chi, Li, Yan, Ma, Shuo-Nan, Liang, Xiao-Min, Jeppesen, Erik, and Wang, Hai-Jun

Subjects

MACROPHYTES, PHYTOPLANKTON

Abstract

Due to excess nutrient loading, loss of submersed macrophytes is a worldwide phenomenon in shallow lakes. Phosphorus is known to contribute significantly to macrophyte recession, but the role of nitrogen has received increasing attention. Our understanding of how high nitrogen concentrations affect the growth of submersed macrophytes, particularly under natural conditions, is still limited. In this study, we conducted experiments with canopy-forming Potamogeton crispus in 10 ponds subjected to substantial differences in nitrogen loading (five targeted total nitrogen concentrations: control, 2, 10, 20, and 100 mg L-1) and compared the results with those of our earlier published experiments with rosette-forming Vallisneria natans performed 1 year before. Canopy-forming P. crispus was more tolerant than rosette-forming V. natans to exposure to high NH4 concentrations. This is probably because canopy-forming species reach the water surface where there is sufficient light for production of carbohydrates, thereby allowing the plants to partly overcome high NH4 stress. Both the canopy-forming P. crispus and the rosette-forming V. natans showed clear declining trends with increasing chlorophyll a in the water. Accordingly, shading by phytoplankton might be of key importance for the decline in submersed macrophytes in this experiment. Both experiments revealed free amino acids (FAA) to be a useful indicator of physiological stress by high ammonium but is not a reliable indicator of macrophyte growth. [ABSTRACT FROM AUTHOR]

Published

2018

3. Effects of high nitrogen concentrations on the growth of submersed macrophytes at moderate phosphorus concentrations.

Author

Yu, Qing, Wang, Hong-Zhu, Li, Yan, Shao, Jian-Chun, Liang, Xiao-Min, Jeppesen, Erik, and Wang, Hai-Jun

Subjects

*MACROPHYTES, *EUTROPHICATION, *PHOSPHORUS, *PHYTOPLANKTON, *ECOSYSTEMS, *NITROGEN removal (Water purification)

Abstract

Eutrophication of lakes leading to loss of submersed macrophytes and higher turbidity is a worldwide phenomenon, attributed to excessive loading of phosphorus (P). However, recently, the role of nitrogen (N) for macrophyte recession has received increasing attention. Due to the close relationship between N and P loading, disentanglement of the specific effects of these two nutrients is often difficult, and some controversy still exists as to the effects of N. We studied the effects of N on submersed macrophytes represented by Vallisneria natans (Lour.) Hara in pots positioned at three depths (0.4 m, 0.8 m, and 1.2 m to form a gradient of underwater light conditions) in 10 large ponds having moderate concentrations of P (TP 0.03 ± 0.04 mg L −1 ) and five targeted concentrations of total nitrogen (TN) (0.5, 2, 10, 20, and 100 mg L −1 ), there were two ponds for each treatment. To study the potential shading effects of other primary producers, we also measured the biomass of phytoplankton (Chl a Phyt ) and periphyton (Chl a Peri ) expressed as chlorophyll a . We found that leaf length, leaf mass, and root length of macrophytes declined with increasing concentrations of TN and ammonium, while shoot number and root mass did not. All the measured growth indices of macrophytes declined significantly with Chl a Phyt , while none were significantly related to Chl a Peri . Neither Chl a Phyt nor Chl a Peri were, however, significantly negatively related to the various N concentrations. Our results indicate that shading by phytoplankton unrelated to the variation in N loading and perhaps toxic stress exerted by high nitrogen were responsible for the decline in macrophyte growth. [ABSTRACT FROM AUTHOR]

Published

2015

4. Total phosphorus thresholds for regime shifts are nearly equal in subtropical and temperate shallow lakes with moderate depths and areas.

Author

Wang, Hai‐Jun, Wang, Hong‐Zhu, Liang, Xiao‐Min, and Wu, Shi‐Kai

Subjects

*PHOSPHORUS, *MACROPHYTES, *PHYTOPLANKTON populations, *LAKES, *TURBIDITY, *EUTROPHICATION control

Abstract

Published research suggests that the total phosphorus ( TP) thresholds for the regime shifts between a clear-water state dominated by submersed macrophytes and a turbid-water state dominated by phytoplankton in shallow lakes vary with forms of lake basins and climates. However, such hypotheses remain untested by direct field evidence. We therefore tested the hypotheses with empirical data from subtropical lakes on the Yangtze floodplain and also from other lakes in temperate to tropical zones., TP thresholds were found to vary little at moderate depths, but to decrease notably when depth exceeds a level of probably 3-4 m, and increase sharply when depth is below a level of around 1-2 m., TP thresholds were found to be nearly equal in shallow lakes (1-2 m

Published

2014

5. Submersed macrophyte restoration with artificial light-emitting diodes: A mesocosm experiment.

Author

Yu, Ye-Xin, Li, Yan, Wang, Hai-Jun, Wu, Xiao-Dong, Zhang, Miao, Wang, Hong-Zhu, Hamilton, David P., and Jeppesen, Erik

Subjects

LIGHT emitting diodes, POTAMOGETON, URBAN lakes, MACROPHYTES, LAKE restoration, PHOTON flux, ACTINIC flux

Abstract

Urban lakes are important natural assets but are exposed to multiple stressors from human activities. Submersed macrophytes, a key plant group that helps to maintain clear-water conditions in lakes, tend to be scarce in urban lakes, particularly when they are eutrophic or hypertrophic, and their loss is linked, in part, to impaired underwater light climate. We tested if enhancing the underwater light conditions using light-emitting diodes (LEDs) could restore submersed macrophytes in urban lakes. Twelve mesocosms (1000 L each) were each planted with tape grass (Vallisneria natans) and monitored over three months (22 August–7 November), using a control and three artificial light intensity treatments (10, 50, and 100 µmol m-2 s-1). Compared with the control, the high light treatment (100 µmol m-2 s-1) had higher leaf number, maximum leaf length, and average leaf length (3.9, 5.8, and 2.8 times, respectively). Shoot number, leaf number, leaf dry mass, root dry mass, and photosynthetic photon flux density in the high-light treatment were significantly greater than the control, but root length and phytoplankton chlorophyll a were not related to plant growth variables and were low in all treatments. Periphyton chlorophyll a increased significantly with the plant growth variables (i.e., shoot number, leaf number, and maximum leaf length) and was high in the light treatments but did not hamper the growth of the macrophytes. These results indicate that LED light supplementation enables the growth of V. natans under eutrophic conditions, at least in the absence of fish as in our experiment, and that the method may have potential as a restoration method in urban lakes. Lake-scale studies are needed, however, to fully evaluate LED light supplementation under natural conditions where other stressors (e.g., fish grazing) may need to be controlled for successful restoration of urban lakes. [Display omitted] • Light addition could enable macrophyte growth in eutrophic waters. • Light addition did not promote growth and shading effects of phytoplankton. • Light addition enabled periphyton growth, but with little shading effects on plants. [ABSTRACT FROM AUTHOR]

Published

2021

6. Correction: Xu, C., et al. Effects of Artificial LED Light on the Growth of Three Submerged Macrophyte Species during the Low-Growth Winter Season: Implications for Macrophyte Restoration in Small Eutrophic Lakes. Water 2019, 11, 1512.

Author

Xu, Chao, Wang, Hai-Jun, Yu, Qing, Wang, Hong-Zhu, Liang, Xiao-Min, Liu, Miao, and Jeppesen, Erik

Subjects

MACROPHYTES, LAKE restoration, LAKES, SPECIES, WATER

Abstract

Effects of Artificial LED Light on the Growth of Three Submerged Macrophyte Species during the Low-Growth Winter Season: Implications for Macrophyte Restoration in Small Eutrophic Lakes. University of Chinese Academy of Sciences, Beijing 100049, China. 1 Xu C., Wang H.-J., Yu Q., Wang H.-Z., Liang X.-M., Liu M., Jeppesen E. Effects of Artificial LED Light on the Growth of Three Submerged Macrophyte Species during the Low-Growth Winter Season: Implications for Macrophyte Restoration in Small Eutrophic Lakes. [Extracted from the article]

Published

2020

7. Water Level Fluctuation Requirements of Emergent Macrophyte Typha angustifolia L.

Author

Yang, Zhen-Dong, Yuan, Sai-Bo, Liu, Xue-Qin, and Wang, Hong-Zhu

Subjects

WATER depth, WATER levels, TYPHA, LAKE hydrology, WETLAND plants, MACROPHYTES

Abstract

The management of water levels in wetlands is of great importance for the wetland ecosystem, including the conservation and revitalization of plants. However, the water level requirements (WLRs) of wetland plants have not been well investigated. In this study, Typha angustifolia was selected as an experimental plant species. Combining field investigation and simulation experiments, the relationship between the development status of this species and water level fluctuations (WLFs) in different life-history stages were analyzed. The results show that populations in the Yangtze floodplain, China, had two phenotypic forms 'tall' and 'short', and that these were distributed in lakes with intermittent or quasi-natural fluctuations and reservoir-like fluctuations, respectively. Lakes with high amplitude (>3.2 m) water fluctuations did not contain T. angustifolia. We investigated the distribution and growth of T. angustifolia in lakes of varying hydrology across the Yangtze floodplain, seeking to define its tolerance of water-level fluctuations and submergence at different stages in its life cycle. The upper tolerance limit of static submerged water depth was bounded by 1.5 times the height of plants in the seedling stage, and the upper tolerance limit of the submergence rate in the seedling stage was the average growth rate of seedling, 1.5 cm/d. The plant height had a positive linear correlation with amplitude and water depth from June to July. The autumn biomass was significantly negatively correlated with amplitude and water depth from January to May. This paper is perhaps the first case study on water level fluctuation requirements (WLFRs) of emergent macrophytes. It systematically assessed the WLFRs of T. angustifolia in each life-history stage, and established a comprehensive WLFR conceptual model. The results of this study could provide a quantitative operational basis for the protection and restoration of this species in Yangtze floodplain lakes. [ABSTRACT FROM AUTHOR]

Published

2020

8. Reply to Cao et al.'s comment on “Does the responses of Vallisneria natans (Lour.) Hara to high nitrogen loading differ between the summer high-growth season and the low-growth season? Science of the Total Environment 601–602 (2017) 1513–1521”

Author

Yu, Qing, Wang, Hong-Zhu, Jeppesen, Erik, Xu, Chi, and Wang, Hai-Jun

Subjects

*NITROGEN, *FRESHWATER ecology, *MACROPHYTES

Published

2018

9. Effects of Artificial LED Light on the Growth of Three Submerged Macrophyte Species during the Low-Growth Winter Season: Implications for Macrophyte Restoration in Small Eutrophic Lakes.

Author

Xu, Chao, Wang, Hai-Jun, Yu, Qing, Wang, Hong-Zhu, Liang, Xiao-Min, Liu, Miao, and Jeppesen, Erik

Subjects

POTAMOGETON, URBAN lakes, MACROPHYTES, EURASIAN watermilfoil, PHOTON flux, ACTINIC flux

Abstract

Eutrophication of lakes is becoming a global environmental problem, leading to, among other things, rapid reproduction of phytoplankton, increased turbidity, loss of submerged macrophytes, and the recovery of these plants following nutrient loading reduction is often delayed. Artificial light supplement could potentially be a useful method to help speeding up recovery. In this study, three common species of submerged macrophytes, Vallisneria natans, Myriophyllum spicatum and Ceratophyllum demersum, were exposed to three LED light treatments (blue, red and white) and shaded (control) for 100 days (from 10 November 2016 to 18 January 2017) in 12 tanks holding 800 L of water. All the three LED light treatments promoted growth of the three macrophyte species in terms of shoot number, length and dry mass. The three light treatments differed in their effects on the growth of the plants; generally, the red light had the strongest promoting effects, followed by blue and white. The differences in light effects may be caused by the different photosynthetic photon flux density (PPFD) of the lights, as indicated by an observed relationship of PPFD with the growth variables. The three species also responded differently to the light treatments, V. natans and C. demersum showing higher growth than M. spicatum. Our findings demonstrate that artificial light supplement in the low-growth winter season can promote growth and recovery of submerged macrophytes and hence potentially enhance their competitiveness against phytoplankton in the following spring. More studies, however, are needed to elucidate if LED light treatment is a potential restoration method in small lakes, when the growth of submerged macrophytes are delayed following a sufficiently large external nutrient loading reduction for a shift to a clear macrophyte state to have a potential to occur. Our results may also be of relevance when elucidating the role of artificial light from cities on the ecosystem functioning of lakes in urban areas. [ABSTRACT FROM AUTHOR]

Published

2019

10. Macrophyte effects on algal turbidity in subtropical versus temperate lakes: a reply to Dolman (2014).

Author

Wang, Hai‐Jun and Wang, Hong‐Zhu

Subjects

*ALGAL communities, *MACROPHYTES, *EFFECT of turbidity on plants, *LAKES, *WATER temperature, *PHOSPHORUS

Abstract

Dolman (2014) argued that our recent finding (Wang et al., 2014) of no marked effect of submerged macrophytes on the chlorophyll a (Chl a) to total phosphorus ( TP) relationship in Yangtze subtropical lakes may not necessarily be valid due to the statistical procedure used to analyse the relationship between these two variables., We agree with Dolman (2014) that a likelihood ratio test could provide an alternative statistical approach to analyse the effect of macrophytes on Chl a versus TP. However, we do not consider it would be appropriate to use the test on only a limited sub-data set corresponding to where TP values overlap for the vegetated and non-vegetated states, as suggested by Dolman (2014)., Besides testing slopes of the log10(Chl a)-log10( TP) relationship, we compared log10(Chl a)/log10( TP) values between vegetated and non-vegetated lakes at a range of overlapping TP concentrations (Wang et al., 2014)., The conclusion drawn by Dolman (2014) from a highly cited work on subtropical lakes in Florida was shown to be invalid. Re-analysis of these lakes demonstrated similar results to those found in Yangtze subtropical lakes. We therefore consider that our original conclusions are valid and that submersed macrophytes in subtropical lakes do not necessarily exert the same strong effects on algal turbidity as in temperate lakes. [ABSTRACT FROM AUTHOR]

Published

2014

11. Does the responses of Vallisneria natans (Lour.) Hara to high nitrogen loading differ between the summer high-growth season and the low-growth season?

Author

Yu, Qing, Wang, Hai-Jun, Wang, Hong-Zhu, Li, Yan, Liang, Xiao-Min, Xu, Chi, and Jeppesen, Erik

Subjects

*VALLISNERIA, *AMMONIUM, *AMINO acids, *MACROPHYTES, *PHYTOPLANKTON

Abstract

Loss of submersed macrophytes is a world-wide phenomenon occurring when shallow lakes become eutrophic due to excess nutrient loading. In addition to the well-known effect of phosphorus, nitrogen as a trigger of macrophyte decline has received increasing attention. The precise impact of high nitrogen concentrations is debated, and the role of different candidate factors may well change over the season. In this study, we conducted experiments with Vallisneria natans during the growing season (June–September) in 10 ponds subjected to substantial differences in nitrogen loading (five targeted total nitrogen concentrations: control, 2, 10, 20, and 100 mg L − 1 ) and compared the results with those obtained in our earlier published study from the low-growth season (December–April). Like in the low-growth season, growth of V. natans in summer declined with increasing ammonium (NH 4 ) concentrations and particularly with increasing phytoplankton chlorophyll a (Chl a Phyt ). Accordingly, we propose that shading by phytoplankton might be of key importance for macrophyte decline, affecting also periphyton growth as periphyton chlorophyll a (Chl a Peri ) decreased with increasing Chl a Phyt . Free amino acid contents (FAA) of plants tended to increase with increasing NH 4 concentrations, while the relationships between FAA with growth indices were all weak, suggesting that FAA might be a useful indicator of the physiological stress of the plants but not of macrophyte growth. Taken together, the results from the two seasons indicate that although a combination of high nitrogen concentrations (ammonium) and shading by phytoplankton may cause severe stress on macrophytes, active growth in the growing season enabled them to partly overcome the stress. [ABSTRACT FROM AUTHOR]

Published

2017

12. Long-term density dependent effects of the Chinese mitten crab (Eriocheir sinensis (H. Milne Edwards, 1854)) on submersed macrophytes.

Author

Wang, Hai-Jun, Xu, Chi, Wang, Hong-Zhu, and Kosten, Sarian

Subjects

*CHINESE mitten crab, *MACROPHYTES, *INTRODUCED species, *PSYCHOLOGICAL feedback, *OPTICAL properties of water

Abstract

The Chinese mitten crab ( Eriocheir sinensis (H. Milne Edwards, 1854)), is a highly invasive species and poses a great threat to endemic species and infrastructure in Europe and North America. Although it is partly herbivorous and prefers to live in lakes with abundant submersed macrophytes, little is known about its effect on macrophytes. We used its native range, the mid-lower Yangtze Basin where the species has been cultured intensively for decades, as our study site to test the hypotheses that (1) high crab densities weaken the positive feedback between macrophytes and water transparency, and that (2) the effects of crabs become apparent only on decadal timescales and (3) are density dependent. We used correlative analyses based on 12 years of monitoring and multi-lake comparisons among 20 sub-areas in 4 lakes. High crab densities were found to cause negative effects on submersed macrophytes and transparency, and to weaken the positive relation between macrophytes and transparency. High densities of macrophytes showed resilience to disturbance from crabs. This resilience, however, reduced with continuous presence of high crab densities. Crab densities were strongly positively related with total phosphorus and negatively with transparency and total nitrogen. Phosphorus concentrations and transparency were not related with phytoplankton chlorophyll a , suggesting that crab’s bioturbation strongly influences water quality. The apparent resilience of the dense macrophyte stands should however, not delay attempts to eradicate the crab where it is invasive as this becomes more difficult once they have become established. When macrophyte abundance is already low at the time of invasion, immediate loss of macrophytes may occur. [ABSTRACT FROM AUTHOR]

Published

2017