year
Standard hydrometric equipment $1,772.00 per year
Tangahoe hydrometric equipment $619.00 per year
Tawhiti hydrometric equipment (lower) $1,573.00 per year
Tawhiti hydrometric equipment (upper) $973.00 per year
Waingongoro hydrometric equipment $755.00 per year
Waitaha hydrometric equipment $7,356.00 per year
Rain Gauge Calibration $306.00 per deployment
Chlorine Meter $18.90 per use
Multi-parameter Field Meter $102.00 per day
EXPLANATION
This scale of charges is used to
(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
production or the main
pipeline could have major effects on the national economy.
5. Greater reliance on services and infrastructure within urban areas for the general
public.
6. Isolation and access to food for smaller towns within the region.
7. A disaster could have a major effect on the regional economy (particularly oil and
gas and agriculture), therefore planning for prompt recovery will be a priority.
8. Ash fall in an eruption of Mt Taranaki is highly likely to contaminate water
consent or a rule in a regional plan, or it falls within some particular categories set
out in Section 14.
As Greymouth Petroleum Limited was unable to estimate the rate or volume of the
take, and as such, may exceed the limits of the permitted activity Rule [Rule 48 of the
RFWP], the take of groundwater fell for consideration under Rule 49 of the RFWP as
a controlled activity.
The standards of Rule 49 require that:
• The abstraction shall cause not more than a 10% lowering of
source of the elevated hydrocarbons and
remove them, no further action was taken at this stage.
17-Oct-23
Self-notification
received about a
hydrocarbon level
of 26.3mg/L in a
stormwater
sample
N No
The sumps system was inspected and no accumulations of oil
was found. As a precaution the sumps were emptied by
vacuum truck. A total of 45 mm of rain was recorded on 17-
10-23 and it was possible that this may have swept residual oil
contamination through the system.
excess of 5000 mm’s on the slopes of Mt Taranaki. Median annual rainfall is
shown in Figure 3 for the Taranaki region which shows the strong spatial variation.
Heavy rainfall is meteorologically defined to be “when greater than 100 mm of rain falls
within 24 hours, or a pro rata amount” (Thompson et al. 2006). The regions heaviest
rainfall occurs when warm moist northerly airflow flow from the tropics flows onto the
district. These conditions can persist when fronts lying
station, but a large
puddle was present between the pump station and camp sites after heavy rain preceding. The flow book
was sighted and current. The trenches were not inspected due to high winds. The camp appeared to be
operating in compliance with its consent conditions at the time of inspection.
Inspection 2 – 10 January 2022
The camp was busy at the time of the inspection with lots of people on site and staying in the converted
containers. The baches were also busy with lots of groups
lakes in the region are small lakes classified as having an open water
area of between one and five hectares. Only two lakes are recorded as having an open water area of
greater than 30 hectares.
13. In addition, there are a number of lakes in the region with an open water area of less than one hectare
which are not identified by FENZ, but still fall within the broad definition of ‘lake’ under the RMA.5 These
water bodies are more likely to be classified as wetlands rather than
of birdlife. It has been noted that
the South Taranaki ring plain contains a very sparse bird life, owing to the lack of
habitat (Fish and Game, 2006).
2.1.2 Hydrological values
Intact small streams and wetlands provide natural flood control, absorbing significant
amounts of rain water and runoff before saturation and consequent flooding occurs.
Natural stream channels tend to meander and provide a variety of substrate types
which slow the flow and energy of water, aiding seepage
decaying
vegetation does not fall or leach into the lake. The last two special conditions specify a lapse
date, should this consent not be exercised within five years of it being granted, and provide
for a review, if required.
Opunake Power holds land use consent 5581-1 to cover the damming of the Waiaua River
in association with the Opunake hydroelectric power scheme. This permit was issued by the
Taranaki Regional Council on 21 March 2001 under Section 87(e) of the Resource
Management Act.