Your search keyword '"nutrient recycling"' showing total 7 results

1. Nutrient retention by predators undermines predator coexistence on one prey.

Author

Klauschies, Toni and Gaedke, Ursula

Subjects

PREDATION, PREDATORY animals, COEXISTENCE of species, LINEAR systems, EXTRATERRESTRIAL resources, BIOMASS

Abstract

Contemporary theory of predator coexistence through relative non-linearity in their functional responses strongly relies on the Rosenzweig and MacArthur (1963) equations in which the (autotrophic) prey exhibits logistic growth in the absence of the predators. This implies that the prey is limited by a resource such as light or space, which availability is independent of the predators. This assumption does not hold under nutrient limitation where both prey and predators bind resources such as nitrogen and phosphorus in their biomass. Furthermore, the prey's resource uptake rate is assumed to be linear and the predator-prey system is considered to be closed. All these assumptions are unrealistic for many natural systems. Here, we show that nutrient retention in predator biomass strongly hampers the coexistence of two predators on one prey because it stabilizes the dynamics. In contrast, a non-linear resource uptake rate of the prey slightly promotes predator coexistence. Our study highlights that predator coexistence does depend not only on differences in the curvature of their functional responses but also on the type of resource constraining the growth of their prey. This has far-reaching consequences for the relative importance of fluctuation-dependent and fluctuation-independent mechanisms of species coexistence in natural systems where autotrophs experience light or nutrient limitation. [ABSTRACT FROM AUTHOR]

Published

2020

2. Comparison of biocrude oil production from self-settling and non-settling microalgae biomass produced in the Qatari desert environment.

Author

Das, P., Thaher, M. I., Khan, S., AbdulQuadir, M., Chaudhary, A. K., Alghasal, G., and Al-Jabri, H.

Subjects

BIOMASS, PETROLEUM, DESERTS, CELL size, MICROALGAE, BIOSURFACTANTS

Abstract

The present study investigated the growth, harvesting, biocrude conversion, and recycling of the HTL aqueous phase for one self-settling (i.e., Chlorocystis sp.) and another non-settling (i.e., Picochlorum sp.) marine microalgae. Both the strains were grown simultaneously in 2 identical 25,000-L raceway ponds in the Qatari desert. The cell size of Picochlorum sp. was small (2–3 µm), and its biomass was harvested using a centrifuge. Cells of Chlorocystis sp. (6–9 µm) formed flocs that settled spontaneously in a sedimentation chamber. Harvested biomass of these two strains was then converted to biocrude oil, using a 500-mL Parr reactor. The biocrude yield of Picochlorum sp. and Chlorocystis sp. was 39.6 ± 1.15% and 34.8 ± 1.65%, respectively. The energy content of the biocrude oil was 32.78 and 33.38 MJ/kg for Chlorocystis sp. and Picochlorum sp., respectively. Both the strains were capable of efficiently utilizing more than 95% nitrogen of the HTL aqueous phase. Although lower biocrude yield was obtained from Chlorocystis sp., compared to Picochlorum sp., harvesting of Chlorocystis sp. would require much lower energy compared to Picochlorum sp. Therefore, a self-settling microalgae (e.g., Chlorocystis sp.) could potentially be a better candidate, over non-settling microalgae, for producing biofuel feedstock. [ABSTRACT FROM AUTHOR]

Published

2019

3. Nutrient changes and biodynamics of Eisenia fetida during vermicomposting of water lettuce ( Pistia sp.) biomass: a noxious weed of aquatic system.

Author

Suthar, Surindra, Pandey, Bhawna, Gusain, Rita, Gaur, Rubia, and kumar, Kapil

Subjects

EISENIA foetida, WATER lettuce, VERMICOMPOSTING, BIOMASS, AQUATIC weeds

Abstract

This paper reports the results of vermicomposting of water lettuce biomass (WL) spiked with cow dung at ratios of 20, 40, 60, and 80 % employing Eisenia fetida. A total of four treatments were established and changes in chemical properties of mixtures were observed. Vermicomposting caused a decrease in pH, TOC, volatile solids, and C/N ratio by 1.01-1.08-fold, 0.85-0.92-fold, 0.94-0.96-fold, 0.56-0.70-fold, respectively, but increase in EC, N, P, K, Ca, Zn, Fe, and Cu, by 1.19-1.42-fold, 1.33-1.68-fold, 1.38-1.69-fold, 1.13-1.24-fold, 1.04-1.11-fold, 1.16-1.37-fold, 1.05-1.113-fold, 1.10-1.27-fold, respectively. Overall, the treatment with 60-80 % of WL showed the maximum decomposition and mineralization rates. The earthworm showed the growth and reproduction rate in considerable ranges in all treatment setups but setups with 60-80 % WL proportion exhibited the optimum results. Results reveal that biomass of water lettuce can be utilized effectively for production of valuable manure through vermicomposting system. [ABSTRACT FROM AUTHOR]

Published

2017

4. A closed NPZ model with delayed nutrient recycling.

Author

Kloosterman, Matt, Campbell, Sue, and Poulin, Francis

Subjects

*PHYTOPLANKTON, *ZOOPLANKTON, *BIOMASS, *ECOSYSTEMS, *FOOD chains, *PLANT nutrients

Abstract

We consider a closed Nutrient-Phytoplankton-Zooplankton (NPZ) model that allows for a delay in the nutrient recycling. A delay-dependent conservation law allows us to quantify the total biomass in the system. With this, we can investigate how a planktonic ecosystem is affected by the quantity of biomass it contains and by the properties of the delay distribution. The quantity of biomass and the length of the delay play a significant role in determining the existence of equilibrium solutions, since a sufficiently small amount of biomass or a long enough delay can lead to the extinction of a species. Furthermore, the quantity of biomass and length of delay are important since a small change in either can change the stability of an equilibrium solution. We explore these effects for a variety of delay distributions using both analytical and numerical techniques, and verify these results with simulations. [ABSTRACT FROM AUTHOR]

Published

2014

5. Anaerobic digestates are useful nutrient sources for microalgae cultivation: functional coupling of energy and biomass production.

Author

Bjornsson, William, Nicol, Robert, Dickinson, Kathryn, and McGinn, Patrick

Abstract

We investigated the extent to which nitrogenous and phosphorus nutrients from liquid anaerobic digestates could be recycled for photosynthetic growth of a microalga, Scenedesmus sp. AMDD. Digestates recovered from the anaerobic digestion of cow manure and swine manure and a co-digestion of swine manure and algal biomass were diluted in distilled water and used for algal growth with and without supplemental CO addition. Nutrient assimilation and final biomass yield were retarded in all but the swine manure/algae co-digestate cultures supplemented with high CO. Swine manure digestate cultures supplemented with the typical complement of micronutrients normally added with a commonly used growth medium or with Fe/EDTA failed to grow any better than unamended controls. When the culture medium was prepared by blending swine manure digestate with 25 or 50 % algal biomass digestate, diluting it with lake water or by supplementing with magnesium, nutrient assimilation and final algal biomass yields were maximized, indicating that magnesium was critically limiting for algal growth in swine manure digestates. Magnesium amendment thus appears to be essential if nutrients from swine manure digestates are recycled for algal growth. No such requirement is necessary for recycling nutrients from digestates generated wholly or in part from algal biomass. [ABSTRACT FROM AUTHOR]

Published

2013

6. Global behaviors of Monod type chemostat model with nutrient recycling and impulsive input.

Author

Zhidong Teng, Rong Gao, Rehim, Mehbuba, and Kai Wang

Subjects

*CHEMOSTAT, *BIOLOGICAL extinction, *MICROORGANISMS, *BIOLOGICAL nutrient removal, *DIFFERENTIAL equations, *BIOMASS

Abstract

In this paper, we consider the global behaviors of Monod type chemostat model with nutrient recycling and impulsive input. By introducing a new study method, the sufficient and necessary conditions on the permanence and extinction of the microorganisms are obtained. Furthermore, by using the Liapunov function method, the sufficient condition on the global attractivity of the system is established. Lastly, an example is given, the numerical simulation shows that if only the system is permanent, then it also is globally attractive. [ABSTRACT FROM AUTHOR]

Published

2010

7. Effects of Galaxias maculatus on Nutrient Dynamics and Phytoplankton Biomass in a North Patagonian Oligotrophic Lake.

Author

Reissig, Mariana, Queimaliños, Claudia P., and Balseiro, Esteban G.

Subjects

GALAXIAS maculatus, PHYTOPLANKTON, BIOMASS, PLANT nutrients, SPECIES, FISHES

Abstract

In this study we analysed the effects of Galaxias maculatus, a landlocked small fish species, on nutrient dynamics, and the consequent effects on phytoplankton biomass of an oligotrophic North Patagonian lake. We performed field and laboratory experiments in order to explore nutrient release by G. maculatus with increasing fish biomass and body size, and the resulting phytoplankton responses. Our results showed that phytoplankton biomass was strongly enhanced in the presence of fish, and that enhancement was greater with increasing fish biomass. These algal increments were associated with higher nutrient concentrations, due to the excretion/egestion processes of fish. In our two laboratory experiments we did not observe phytoplankton increase, probably due to light conditions, but we did observe significant effects of fish on nutrient concentrations. As was expected, mass-specific nutrient release rates were higher in smaller fish than in larger ones. So, the amount of nutrients supplied to phytoplankton would be influenced by the size structure of fish population. As a consequence of different N and P release rates, an increase in the NNH4 : PTDP ratio was observed in the presence of fish. The fact that G. maculatus is a species that moves in schools would determine spatial heterogeneity in nutrient release, with important effects of reducing nutrient limitation and shifting NNH4 : PTDP ratios. [ABSTRACT FROM AUTHOR]

Published

2003