A simulation model was built to describe the growth patterns of Zostera marina in an area in the Venice lagoon. The model tracks changes in the above- and below-ground biomass and shoot density and is based on data for Zostera biomass, net production and growth rates, chemical-physical parameters and nutrient concentrations in water, sediment and particulate matter. It was assumed that the most important factors controlling Zostera growth and distribution are light and temperature, and that Zostera growth was not limited by nutrient availability. The goal was to simulate biomass production and its seasonal changes as a function of external forcing variables (light, water temperature, wind and tide-generated water movements) and internal con...
The combined effects of light and nitrogen availability on population dynamical characteristics (e.g...
The relative impact of light, depth, hydrology, hydrodynamics, sediment and nutrients on growth of t...
Coastal lagoons are characterized by a constant threat of eutrophication and a critical coexistence ...
A simulation model was built to describe the growth patterns of Zostera marina in an area in the Ven...
The Virtual Eelgrass Meadow (VEM) was developed to link the population dynamics of eelgrass ramets w...
Modelling of seagrasses can be an effective tool to assess factors regulating their growth. Growth a...
In this paper we investigate the robustness of a dynamic model, which describes the dynamic of the s...
Two populations of Zostera marina L. were monitored over one year (February 1994-February 1995) in t...
ABSTRACT: A simulation model for biomass dynamics of the submersed macrophyte Potamogeton pectinatus...
Results of a year long study on the biomass dynamics and production of three seagrass species (i.e. ...
Shallow coastal lagoons are subject to anthropogenic nutrient enrichment and disturbances that resul...
Abstract: This paper describes the evolution in time and space of wigeongrass (Ruppia maritima) mead...
The model presented here points out the possibility of simulating with a mathematical description th...
The combined effects of light and nitrogen availability on population dynamical characteristics (e.g...
The relative impact of light, depth, hydrology, hydrodynamics, sediment and nutrients on growth of t...
Coastal lagoons are characterized by a constant threat of eutrophication and a critical coexistence ...
A simulation model was built to describe the growth patterns of Zostera marina in an area in the Ven...
The Virtual Eelgrass Meadow (VEM) was developed to link the population dynamics of eelgrass ramets w...
Modelling of seagrasses can be an effective tool to assess factors regulating their growth. Growth a...
In this paper we investigate the robustness of a dynamic model, which describes the dynamic of the s...
Two populations of Zostera marina L. were monitored over one year (February 1994-February 1995) in t...
ABSTRACT: A simulation model for biomass dynamics of the submersed macrophyte Potamogeton pectinatus...
Results of a year long study on the biomass dynamics and production of three seagrass species (i.e. ...
Shallow coastal lagoons are subject to anthropogenic nutrient enrichment and disturbances that resul...
Abstract: This paper describes the evolution in time and space of wigeongrass (Ruppia maritima) mead...
The model presented here points out the possibility of simulating with a mathematical description th...
The combined effects of light and nitrogen availability on population dynamical characteristics (e.g...
The relative impact of light, depth, hydrology, hydrodynamics, sediment and nutrients on growth of t...
Coastal lagoons are characterized by a constant threat of eutrophication and a critical coexistence ...