any treatment it will receive prior to discharge: These details are provided in sections 3 and 5 of the attached Assessment of Environmental Effects. Liquids discharged to water What is the proposed maximum rate of discharge? Rate 2000.0 Unit Litres per second How frequent is the discharge? Not constant Hours per day 0.00 Days per week 0.00 Other Will occur during maintenance periods only. page Give full details of the method of
their resilience too, and as a region, we’ll continue to rise to the challenge. page 4 The bottom line The changing environment has impacted our budget with spending now forecast to be $46.8m (compared with $45.2m signalled in the 2021/2031 Long-Term Plan). As a result, general rates will move from the proposed 5.5% to 7.9% for 2022/2023, which for most ratepayers will be less than $20 per annum extra. Targeted rates remain consistent with those
enables the Council to continually re-evaluate its approach and that of consent holders to resource management and, ultimately, through the refinement of methods and considered responsible resource utilisation, to move closer to achieving sustainable development of the region’s resources. 1.1.4 Evaluation of environmental performance Besides discussing the various details of the performance and extent of compliance by the consent holders, this report also assigns a rating as to each Company’s
was indicative of well-treated wastewater, with parameters typical of a municipal oxidation pond system receiving minimal industrial waste loadings. No significant impacts on the Kaupokonui River were recorded from the physicochemical parameters analysed during the mid-summer survey conducted in January 2022, when a low discharge rate of well-treated wastewater characterised this system. No significant impacts of the effluent discharge were indicated by MCI scores through the reach of the
revalued, the total impairment is recognised in the surplus or deficit. Depreciation and amortisation expense Depreciation is provided on a straight-line basis, at rates that will write-off the cost or valuation of assets, to their estimated residual values, over their useful lives. The rates of depreciation are as follows: Buildings 1.25% to 6.67% per annum Furniture, fittings and equipment 6.67% to 25.00% per annum Office Equipment 15.00% to 30.00% per annum The residual
page 70 Ngā āpitinga Appendices Appendix 1: Charging policies Resource Management Act charging policySchedule of charges pursuant to section 36 of the Resource Management Act 1991 SCHEDULE 1: SCALE OF CHARGES FOR STAFF TIME Rate for processing resource consents and responding to pollution incidents. Rate for all other Council work. Professional staff $111/hr $106/hr Professional/supervisory staff $141/hr $132/hr Team Leaders $173/hr $161/hr
Lake Mangamahoe 23 5.1 Historic aerial imagery analysis 23 5.2 Observed morphology and processes 25 5.3 Bathymetric surveys 26 5.4 Annual sediment infill rate 29 6 Summary 32 7 Applicability 35 8 References 36 Appendix A : Catchment scale sediment sources Appendix B : Downstream geomorphic assessment page Tonkin & Taylor Ltd Mangorei HEPS Consent Renewal - Lake Mangamahoe Sediment Assessment Trustpower Ltd November 2020 Job
Special Interest Group (regional sector of LGNZ) SIP Speed and Infrastructure Programme SMP Speed Management Plan SPR Special Purpose Road STDC South Taranaki District Council STE Stock Truck Effluent TEFAR Targeted Enhanced Financial Assistance Rate TIO Transport Investment Online TP Transport Programme TRC Taranaki Regional Council TSIG Transport Special Interest Group VKT Vehicle Kilometres Travelled Taranaki Regional Transport Committee -
incineration and burning of waste. Natural sources, such as sea-spray and pollen, also contribute to overall levels. 18. Research has demonstrated a correlation between short-term episodes of exposure to particulate matter and increased adverse medical outcomes for heart, respiratory and circulatory conditions (e.g. asthma, emphysema, heart attack and stroke). Longer-term exposure to increased concentrations correlates with increased cancer rates, premature death rates and chronic respiratory
Manganui River residual flow 13 Table 3 Details of consents and special conditions in relation to abstraction rates, discharge rates and water levels and the recording 14 Table 4 Summary of summer Manganui River daily water temperatures (°C) prior to the increase in residual flow to 400 L/s (1992-2002) and for the years since, upstream and downstream of the Motukawa HEP weir 16 Table 5 Summary of maximum daily water temperatures in the Manganui River, upstream and downstream of the