% 830 words % actual: 1200+ words \section{Proposed activities and their potential effects} All three major stations in the lifecycle of the proposed dairy factory have to be considered for an assessment of the potential effects of the project: preparation of the site and construction, operation, and eventual close-down of the facility. For the purposes of this assignment only the potential impacts of the first two stages shall be addressed as they dominate the life cycle effects. This includes the following activities: \begin{inparaenum}[\itshape(a)\upshape] \item site preparation and construction work; \item water allocation and abstraction; \item treatment of solid and liquid wastes; \item waste water discharge; \item packaging of produced good; and \item transport of raw materials and goods. \end{inparaenum} The different activities at different stages may result in similar effects on a given component of the socio-economic or physical environment, and many impacts can cause a cascade of other effects of varying significance. All project activities are to be evaluated against selected components of the environment, including \begin{inparaenum}[\itshape(a)\upshape] \item air and atmosphere; \item water and soil; \item vegetation and habitat; \item human health; \item amenity values and cultural heritage; \item economic base; and \item demography. \end{inparaenum} \subsection{Overview} The proposed dairy processing facility is supposed to be located close to the river for easy access to water and for the convenient discharge of waste water back into the river. The preparation of the site for construction in proximity to the river as well as the proposed take and discharge activities during operation of the factory have direct effects on water quality parameters. Changes to the properties of the body of water (e.g. sediment load, changes in flow patterns, increases in nutrient levels) affect not merely aesthetical values held by residents of the affected region, but are likely to have impacts on the composition of aquatic communities and the health of riparian and aquatic ecosystems. Major impacts on air quality and amenity values are the emission of particulate matter, gases and odours, generation of noise (during construction and transport of products and raw materials), and `visual pollution.' \subsection{Construction} Preparing the selected site for construction requires the displacement of existing uses. On a site close to the river in a rural area, the site may be populated by riparian vegetation. Vegetation in the riparian area and the adjoining uplands may serve as a filter, reducing the amount of sediment, excess nutrients and other pollutants entering the river \parencite{riparian}. This filtering ability is particularly valuable in a region where dairy farming is expanding and with it the cumulative impact of non-point sources of farm effluent is increasing. The clearing of vegetation may also directly reduce available habitat for native species, such as frogs and insects with aquatic larvae \parencite{riparian-management}. This impact can mostly be avoided by selecting a site that has already been cleared and does not serve as important habitat to native species. During dredging and excavation works on the construction site or during the removal of sediments away from the site, sediments may spill into nearby water bodies. An excessive increase in suspended sediments in the river affects water clarity, thereby reducing penetration with sunlight which is needed by aquatic plants and algae to grow. Increased turbidity may also make it difficult for fish to find food or detect predators \parencite{niwa-sediment}. As the sediment load of a river increases, its flow characteristics change making the conditions less favourable for certain aquatic species and invertebrate habitat may be destroyed by smothering animals, plants and the river-bed. Sedimentation is less of a problem when the construction site and the transport routes are chosen to be not in the immediate vicinity of the river or other bodies of water. \subsection{Effects during operation} During operation of the diary factory water is abstracted from the nearby river to sustain the production activities. The amount of water that is used by a dairy factory depends on a variety on parameters, including the range of products that the factory produces and the operations that are involved in production; in New Zealand about 2.2 litres of water are used for every litre of milk that is being processed \parencite[Fonterra data, cited in][]{vanasselt}\footnote{When dairy farming is included in the calculations, one litre of milk requires almost 1,000 litres of water on average.}. According to \textcite{vanasselt}, dairy processing plants use water mainly for cleaning and sanitising operations, as well as heating and cooling. The \textcite[][p. 110]{growing} summarises the potential impacts of water take as follows: \begin{quote} The environmental effects of water allocation are twofold – the effects of the reduction of water in the water bodies and the effects the use of that water may have on water quality. Abstraction of water from surface water or groundwater, will have an impact on the ecosystems reliant on that water, for example, by reducing the flow of a river, or increasing the temperature of the water. Thus a reduced flow may mean that the river is no longer a suitable habitat or breeding ground for a type of fish. \end{quote} The major waste material from processing milk in a dairy factory is wastewater carrying organic components (such as proteins, lactose and fat) and inorganic components (e.g. nutrients). Wastewater includes both water that has been removed from the milk and abstracted water that has been used to sanitise equipment, clean the factory, or for heating and cooling. When organic components in dairy factory effluent reach rivers they are converted to carbon dioxide and water by bacteria under use of oxygen. Whether the inflow of organic components leads to oxygen depletion with fatal consequences for fish and other members of aquatic communities depends on the re-aeriation characteristics of the river \parencite{chemical}. Farming practices also influence the contents of the factory's wastewater. Residual antibiotics given to cattle and remains of pesticides that were applied to the feed crops tend to accumulate in the milk and end up in the wastewater after processing; upon discharge these trace amounts enter the food web. Contamination of the river water may make the water unfit for recreational use, even kilometres away from the discharge site. According to \textcite{vanasselt}, milk is repeatedly heated and cooled during its way through the factory. UHT (ulta-high temperature) treatment and other processes used to kill off harmful bacteria in the milk, for example, results in heated wastewater. As most aquatic ecosystems are very sensitive to temperature, discharges of warm wastewater could significantly affect the composition and dynamics of aquatic communities around the discharge location; hence, wastewater discharges are usually required not to alter the natural temperature of the sink waterway by more than one to two degrees \parencite{chemical}. \subsection{Other activites and socio-economic effects} Related activities such as the transport of raw materials from farms to the factory and the transport of finished products to local stores and export sites bring about a chain of higher-order effects, such as an increase in the use of fossil fuels and an increase in noise levels. Regular transportation with heavy vehicles puts additional stress on roads, requiring more maintenance work. A greater demand in social services for workers who move to the area to work at the factory may also stress the community's budget. All of the above effects could lead to a reduction of life quality for residents in this area. The inventory of impacts does not end here, however. The potentially benefitial effects of the proposed project also have to be considered and---if possible--quantified. The establishment of a dairy factory close to dairy farms provides a boost to the local and national economy and creates numerous job opportunities---temporary jobs for construction workers as well as stable employment for engineers, maintenance personell, factory workers, managers, and in the transportation sector.