The Relationship of the Processes in the Rhizosphere of Common Reed <i>Phragmites australis</i>, (<scp>Cav.</scp>) <scp>Trin.</scp> ex <scp>Steudel</scp> to Water Fluctuation

Urbanc‐Berćić, Olga; Gaberščik, Alenka

doi:10.1002/iroh.200410774

Cited by 16 publications

(5 citation statements)

References 12 publications

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“…NH 4 + is the first form released by the decomposition of organic matter and represents a constant source of N for microorganisms and plants. NH 4 + is then transformed to NO 2 − and NO 3 − in the aerobic zones through the nitrification process . Thus, the positive correlation between NH 4 + contents and amo A‐type nitrifier assemblages in the rhizosphere sediment was significant.…”

Section: Resultsmentioning

confidence: 97%

Implication of Nitrifying and Denitrifying Bacteria for Nitrogen Removal in a Shallow Lake

Wang

Zhao

Xie

et al. 2017

CLEAN Soil Air Water

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The relationship among reed nitrogen (N) uptake, nitrifying and denitrifying bacteria, and N content in the rhizosphere sediment was studied based on field investigation in terrestrial zone (TZ), ecotone zone (EZ), and submerged zone (SZ) of Baiyangdian Lake, the largest natural freshwater body of Northern China. The results showed that the total nitrogen (TN) content in the rhizosphere sediment decreased with increased aboveground reed TN storage, achieving the highest decrease rate of 68.6–78.6% when the aboveground reed TN storage reached its maximum in September. A positive correlation could be shown between amoA‐type nitrifier assemblages and ammonium (NH4+) content in the rhizosphere sediment. However, the correlation between nirS‐type denitrifiers and nitrate (NO3−) in the rhizosphere sediment was not significant. The amoA‐type nitrifier and nirS‐type denitrifier assemblages were significantly correlated with air temperature in each zone (p < 0.01). The quantity of amoA‐type nitrifiers in the TZ was 48.3% higher compared with the SZ, whereas the average number of nirS‐type denitrifiers in the submerged zone was twice than that in the TZ. These results imply that reed growth and environmental conditions, including air temperature and water level, are important for N removal in shallow lakes.

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Section: Resultsmentioning

confidence: 97%

Implication of Nitrifying and Denitrifying Bacteria for Nitrogen Removal in a Shallow Lake

Wang

Zhao

Xie

et al. 2017

CLEAN Soil Air Water

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“…Though most of the efforts are focused on the changes of macrophyte area as controlled by WLF (e.g. Wallsten & Forsgren, 1989;Dienst et al, 2004;Hudon et al, 2005), studies have addressed many different aspects of macrophyte biology and ecology (Wagner & Falter, 2002;Urbanc-Bercic & Gaberscik, 2004;Nishihiro et al, 2004a, b;Paillisson & Marion, 2006;Imamoto et al, 2007). The strong response of wetland vegetation to hydrological conditions underlines their vulnerability to water-level variations resulting from regulation and climate variability (Murphy, 2002).…”

Section: Effects On Biotamentioning

confidence: 98%

Effects of water-level fluctuations on lakes: an annotated bibliography

2008

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Water-level fluctuations (WLF) in lakes and rivers, especially their extent, frequency and duration, are dominant forces controlling the functioning of these ecosystems. In particular, WLF play an important role in the lake's littoral and aquatic-terrestrial interface processes. WLF may take place on different spatial and temporal scales under natural conditions but water levels have been artificially modified in regulated lakes, and their impacts are expected to be enhanced within the actual global change scenarios with forthcoming management problems. This article presents an overview on the literature published on this important topic since 1991 by using journals indexed in the ISI Web of Knowledge. The overall objective was to examine temporal and spatial trends in publications on WLF, the specific aspect of WLF concerned and their main effects. Throughout the article we have used case studies to illustrate different effects of WLF on the variety of lake habitats and indicators that have been studied. Overall, the number of papers published on the subject since the 1990s has risen steadily, when less than ten papers were published each year; until 2006 and peaking in 2005. The greatest number of papers on WLF has been carried out in Europe and North America (c. 73%). These data also showed that the effects of WLF have not been studied equally for different groups of organisms. There is a greater interest on macrophytes, which are the most studied group of organisms (18.4% of the papers). Nearly 7% of the papers deal with algae, and zooplankton and invertebrates account for a 7% followed by fish. WLF effects on ecosystems are very complex, and the biological effects in lakes are greatest in shallow water and littoral areas, where even small changes in water levels can result in the conversion of large areas of a standing-water environment in air exposed habitats. Finally, these data might serve to highlight knowledge gaps still existing on this topic and, in particular, some of the approaches that can potentially contribute to solve several of these lacunae are explored.

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“…The highest ETS-activity was detected at Dujice (0.12-0.23 mg O 2 gDM −1 h −1 ), while at Drvošec and Zadnji kraj, ETS-activities were lower than 0.008 mg O 2 gDM −1 h −1 (Urbanc-Berčič & Gaberščik, 2001). The organic structure of the soil enabled high field-water capacity, supporting undisturbed mineralisation processes even in dryer periods (Urbanc-Berčič & Gaberščik, 2004). It was expected that the ETS-activity of soil would be positively correlated with soil water content, however the correlation was rather weak.…”

Section: Other Processesmentioning

confidence: 99%

Water Regime Changes and the Function of an Intermittent Wetland

Dolinar

Šraj

Gaberščik

2010

Water and Nutrient Management in Natural and Constructed Wetlands

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The intermittent Lake Cerknica comprises a variety of wetland habitats, which support numerous species, many of them included on the Red List. The exchange of wet and dry periods influences the through-flow of energy and the turnover of matter in the lake. In the last five decades, the water level fluctuations were highly variable. Since 1961 the May and June water levels have shown a decreasing trend line, in October the trend line revealed an increase, while from November to February no changes of trend could be observed. High water levels in winter and during the peak vegetation season negatively affected reed productivity. The decomposition of reed leaves increased with the wetness of the survey location, while the soil mineralisation rate was only slightly related to soil wetness. In comparison to the tributaries, the lake water contained relatively low amount of nutrients, which was a consequence of a densely vegetated area.Keywords Decomposition · Evapotranspiration · Intermittent lake · Phragmites australis · Wetland habitats IntroductionLake Cerknica is an intermittent wetland appearing at the bottom of the Cerknica polje karst depression. It is characterised by extreme inter-annual water level fluctuations, which are the result of a high precipitation rate and water runoff into an extensive underground drainage system in carbonate rocks. The catchment area of the lake extends over 475 km 2 . The majority of the lake's inflow consists of karstic waters (80%), while only one tributary brings surface water (15%). The amount of water in the lake depends on precipitation and potential evapotranspiration of the

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The Relationship of the Processes in the Rhizosphere of Common Reed Phragmites australis, (Cav.) Trin. ex Steudel to Water Fluctuation

Cited by 16 publications

References 12 publications

Implication of Nitrifying and Denitrifying Bacteria for Nitrogen Removal in a Shallow Lake

Implication of Nitrifying and Denitrifying Bacteria for Nitrogen Removal in a Shallow Lake

Effects of water-level fluctuations on lakes: an annotated bibliography

Water Regime Changes and the Function of an Intermittent Wetland

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