INNOVATIVE TECHNOLOGY
RSPC-IEB
Remote System For The Prevention and Control of Invasive Exotic Bivalves
RSPC-IEB I FIRST PHASE.
(Early detection for selective control of Dreissena polymorpha colonies in shallow and deep waters) It requires the mathematical and computational use to generate multi-parametric models that explicitly incorporate environmental variability, thus reducing the stock assessment variance. • Measurement of the physical chemical characteristics of water bodies. (Environmental parameterization, empirical models that correlate environmental and biological variables) • Differential contrast between the standard water body patterns and the variations generated as a consequence of D.p. • Localization of zones that show variations with respect to the pattern. • Measurement of size, volume and importance of settlement. • Information, analysis and translation of data in standard models through a software program • Bathymetric mapping of settlements |
RSPC-IEB II SECOND PHASE.
(Implementation of the Zequanox method on the colony of Dreissena polymorpha in shallow and deep waters) The effective and selective application of Zequanox by the immersion method takes into account factors that recognize the period of activity of D.p. Their behavioral habits in relation to habitat alterations such as physicochemical factors that influence the properties of light such as transparency, ie the amount of light transmitted; The absorption, ie the degree of radiation retained, and turbidity by the presence of suspended matter. The concentrations of dissolved oxygen, conductivity and thus 27 parameters that directly or indirectly affect the process of maximum-medium-minimum efficiency of application in relation to the vital activity of D.p. All these factors must be taken into account to determine the timing and correlation of positive factors that allow the process to be completed with the maximum guarantees of success. Only a technology capable of correctly interpreting this information and translating it correctly to execute the process successfully will be the tool that allows control over the colonies of D.p. OBJECTIVE • Construction of an autonomous implementation team or with auxiliary operational support according to the geophysical conditions of the medium, according to Technoymar Soluciones' original technique and design. • Displacement by means of mechanical propulsion activated by autonomous equipment of energy. • Georeferenced positioning using commercial or free software and capable of acting on the treated water column. • Computer-aided mechanical applicator applied to the required dosing processes, in immersion environment, and according to technical specifications developed by Technoymar Soluciones. |
RSPC-IEB III THIRD PHASE
The elimination of colonies of adult bivalves settled in open water, at depths exceeding 10 meters, represents a technological challenge of maximum complexity. The control treatment carried out by RSPC-IEB II involves the death of millions of invasive molluscs concentrated in colonies of high densities (up to 700,000 individuals / m2). The decomposition of these dead organisms causes changes in the physical and chemical characteristics of the water, as well as other problems in the different hydraulic infrastructures present in these bodies of water (eg pipes, filters, etc.). The removal of the organic remains from the colonies of D. polymorpha will not only allow to maintain water quality, but could also be considered as a new resource with applications in the development of, for example, fertilizers and other products of use industrial and agricultural. The RSPC-IEB III will be carried out by means of a network of panels placed on the colonized substrates. This network will collect the next generation of dreisenids, which tend to settle on the biological remains of the original settlement treated in Phase II. This method is supported by the experience gained over 11 years of field work by MARRONE BIO INNOVATION in the United States and Canada and TECHNOYMAR SOLUTIONS in Europe, in the control of large colonies and the effects of the death of millions of a short time. The collection, collection, treatment and transport of these organic wastes generated by the control of the colonies, offer us the possibility of reuse of these organisms as a complement for the fertilizer industry and agricultural fertilizers. This possibility situates this phase of the RSPC-IEB III, as a project that closes the cycle of a process of ecological control and highly efficient and that allows to place the project within the framework of the so-called circular economy |
REMOTE SYSTEM FOR THE PREVENTION AND CONTROL OF INVASIVE EXOTIC BIVALVES
Contains the germ of knowledge generated empirically and applied to real situations during years of technological development for the control of D.p. and severely affecting numerous countries. There are more than 70 countries seriously affected and 40 others with high risk of collapse in their natural and artificial water systems by pests of invasive aquatic species, especially bivalves, and lacking efficient early detection systems, demand solutions Urgent. The proposal presented by TECHNOYMAR SOLUCIONES, collects the ideal conditions to satisfactorily solve this demand. A determinant factor is that we have the only molluscicide based on bacterial organism, able to control in a safe, selective and 100% efficiency in all phases of the life of the invading mollusc. This condition of friendly method with the environment, locates of preeminent form before any other model. This factor is key to the controlled detention of the pest and that can benefit from this technological advance, which should materialize at this stage of the process, in the creation of a prototype industrial scale. Several national and international entities are interested in participating in this initiative. The formation of an initial working group, should establish the conditions for their incorporation to the group, the legal legal framework, distribution of tasks, control over processes, budgets and different teams that will form the core body of research and the subsequent process of model development. The universality of the problem posed by the invasive alien species, the considerable economic and environmental damage suffered by the affected countries, presents a highly favorable scenario for the application of this model, and opens wide-reaching expectations for the industrial exploitation of this initiative. |
ECOWATER LIQUID CERAMICS |
Benefits of ECOWATER LIQUID CERAMICS |