Freshwater bodies of outstanding or significant value in the Taranaki region
Freshwater bodies of outstanding or significant value in the Taranaki region,
Your search for 'rain fall' returned 2021 results.
NPDC Colson Road Landfill Annual Report 2021-2022
Table 3 Summary of monitoring activity for 2021-2022 17 Table 4 Chemical analysis of Colson Road landfill combined site leachate discharge 33 Table 5 Sample results for characterisation of Stage 1&2 and Stage 3 leachate 34 page iii Table 6 Results of analysis of under liner drainage for the year under review. 37 Table 7 Sample results for the characterisation of the under liner groundwater drainage 42 Table 8 Results of rain event monitoring – discharge and
The Taranaki Region
climate, with abundant rainfall and high sunshine hours, makes the region lush, green and fertile. Rainfall Annual rainfall varies throughout the region. Some coastal areas receive less than 1,400 mm annually, while the summit of Mount Taranaki receives around 7,500 mm. Heavy rainfall events do occur and there can be extremes. In 2012 heavy rain caused a number of slips on the coastal road around Mount Taranaki, including a large slip at Oākura that covered the road, burying a
Manawa Energy - Motukawa HEP Scheme Annual Report 2023-2024
sensor system, the Company can monitor the residual flows in the Manganui River, water levels in the race and lake, and how much rain is falling locally. This has allowed the Company to manage race flows to minimise flooding and has greatly improved the Company’s compliance with residual flow requirements. Resource consents The Company holds 13 resource consents, the details of which are summarised in the table below. Summaries of the conditions attached to each permit are set out in Section
Summer 2014-2015
Waiwhakaiho River and Te Henui Stream, and less frequently at Lake Opunake, were due principally to resident wild fowl populations in the vicinity of recreational usage sites (as confirmed by inspections and more recently by DNA marker surveys). In terms of E. coli, bacteriological water quality in the latest survey period was similar in comparison with historical surveys. The total number of samples falling within the “Alert” or “Action” categories (29% of samples) was 1% higher than the long-term
GPL Northern Sites Annual Report 2023-2024
build a new compressor onsite. The old flare pit had been tested for contamination prior to it being reinstated to pasture. At the time of inspection no flare, heat haze or smoke was detected. The skimmer pits were visually satisfactory. It was noted that the discharge pipe is kept closed during rain events to allow sediment to settle out prior to discharge, with various tide marks around the pits showing that this was common practice. Hydrocarbon cloth had been placed under the coil tubing
Taranaki CDEM Group Plan 2018-2023
Taranaki Civil Defence Emergency Management Group Plan 2018-2023
Annual Plan 2025 26 Schedule of charges
(upper) $1,177.30 per year Waingongoro hydrometric equipment $913.60 per year Waitaha hydrometric equipment $9,709.92 per year Rain Gauge Calibration $370.30 per deployment Chlorine Meter $22.90 per use Drone $145.20 per day Multi-parameter Field Meter $123.40 per day Haehanga hydrometric equipment $2,621.50 per year Explanation This scale of charges is used to calculate the Council's actual and reasonable costs when carrying out functions under the Resource
MataurangaMaori web
natural form and character, mahinga kai, fishing, irrigation and food production, animal drinking water, wāhi tapu, water supply, commercial and industrial use, hydro-electric power generation, transport and tauranga waka. Attributes for these values are categorised into four states, A, B, C or D, reflecting different levels from A-excellent to D- unacceptable. D is the attribute that falls below the national bottom line and the NPS-FM requires that the freshwater management unit is
Policy and Planning Committee Agenda Nov 2023 web
Taranaki’s lakes are likely to fall below the “national bottom line”, meaning they are considered to be degraded and in poor health. Overall, 78% of lakes were predicted to fail to achieve the bottom line for at least one attribute, with more than 50% of lakes likely to fail the lake-bottom dissolved oxygen attribute. A predicted 72% failed chlorophyll-a (a measurement of algae), while 54% failed for total phosphorus and 61% for total nitrogen. 7. There are a number of further steps required to