A thumbnail photograph of Whole House Reuse item 263, cropped for the catalogue. This item was salvaged from 19 Admiral Way in New Brighton as part of the Whole House Reuse project.
A photograph showing painted out sign with the words "N.Z. NATIONAL".
A photograph of mannequins lying on the footpath outside the R.N.A clothing store on Colombo Street. The mannequins are dressed in adventure gear. USAR codes have been spray-painted on the glass door and window of the store. A yellow sticker has also been stuck to the door, indicating that access to the building is restricted.
A view across Lincoln Road from Bernard Street to the former Spice 'N' Things building. Masonry from the building's upper section have collapsed onto the road. A sign painted beside the building reads, "Spice 'N' Things moved to 208 Lincoln Rd".
A photograph of a brick from St Paul's-Trinity-Pacific Church. A frog stamp reading, "W N" can be seen.
A photograph of a brick from St Paul's-Trinity-Pacific Church. A frog stamp reading, "W N" can be seen.
A photograph of a vacuum cleaner in the Diabetes Centre. A sign reading, "S.N.A.G. Sensitive new age guy!!!" has been hung from the vacuum cleaner's head.
A photograph of a vacuum cleaner in the Diabetes Centre. A sign reading, "S.N.A.G. Sensitive new age guy!!!" has been hung from the vacuum cleaner's head.
Photograph captioned by Fairfax, "At the Love and Harmony benefit concert for Canterbury earthquake relief, Honestly Watene (left) of Naenae, and Emma Haua of Stokes Valley jive it up in rock 'n' roll fashion for a crowd of a hundred at Naenae Community Centre. They are members of the Hutt Valley Rock 'n' Roll Club".
A photograph of a marquee in the car park of the Moorhouse Avenue PAK'nSAVE. In the distance, the Holiday Inn can be seen with a crane behind it.
A photograph of a crane working on the demolition of the Hotel Grand Chancellor. The photograph was taken from the car park of PAK'nSAVE on Moorhouse Avenue.
The south Leader Fault (SLF) is a newly documented active structure that ruptured the surface during the Mw 7.8 Kaikoura earthquake. The Leader Fault is a NNE trending oblique left lateral thrust that links the predominantly right lateral ‘The Humps’ and Conway-Charwell faults. The present research uses LiDAR at 0.5 m resolution and field mapping to determine the factors controlling the surface geometries and kinematics of the south Leader Fault ruptures at the ground surface. The SLF zone is up to 2km wide and comprises a series of echelon NE-striking thrusts linked by near-vertical N-S striking faults. The thrusts are upthrown to the west by up to 1 m and dip 35-45°. Thrust slip surfaces are parallel with Cretaceous-Cenozoic bedding and may reflect flexural slip folding. By contrast, the northerly striking faults dip steeply (65° west- 85° east), and accommodate up to 3m of oblique left lateral displacement at the ground surface and displace Cenozoic bedding. Some of the SLF has been mapped in bedrock, although none were known to be active prior to the earthquake or have a strong topographic expression. The complexity of fault rupture and the width of the fault zone appears to reflect the occurrence of faulting and folding at the ground surface during the earthquake.
The capability of self-compacting concrete (SCC) in flowing through and filling in even the most congested areas makes it ideal for being used in congested reinforced concrete (RC) structural members such as beam-column joints (BCJ). However, members of tall multi-storey structures impose high capacity requirements where implementing normal-strength self-compacting concrete is not preferable. In the present study, a commercially reproducible high-strength self-compacting concrete (HSSCC), a conventionally vibrated high-strength concrete (CVHSC) and a normal strength conventionally vibrated concrete (CVC) were designed using locally available materials in Christchurch, New Zealand. Following the guidelines of the New Zealand concrete standards NZS3101, seven beam-column joints (BCJ) were designed. Factors such as the concrete type, grade of reinforcement, amount of joint shear stirrups, axial load, and direction of casting were considered variables. All BCJs were tested under a displacement-controlled quasi-static reversed cyclic regime. The cracking pattern at different load levels and the mode of failure were also recorded. In addition, the load, displacement, drift, ductility, joint shear deformations, and elongation of the plastic hinge zone were also measured during the experiment. It was found that not only none of the seismically important features were compromised by using HSSCC, but also the quality of material and ease of construction boosted the performance of the BCJs.
A photograph of street art in the Addington Saleyards on Deans Avenue, taken before the earthquakes. The street art was created by Mista Gloom 'n Doom.
The cartoon shows the name 'Christchurch' shaking so that bits fly off it; the letters 'H', 'I', and 'T' spelling 'hit' are the only ones not shaking. A second version has the words 'Rock'n Roll' as a title. Refers to the earthquake of 4th September 2010 and its hundreds of aftershocks which continue on now into November. Two versions of this cartoon are available Quantity: 1 digital cartoon(s).
Website of scientist Dr N.E. Whitehead. Includes tabulated raw data from an online survey, a report based on the data, a link to the scientific paper written by Dr Whitehead and Professor Motoji Ikeya.
(From our correspondent.) Christchurch (N.Z.) Ten years ago I visited Christchurch for the first time, and recorded my impressions of the place in the columns of The Daily News. A decade means a go…
An image used as a profile picture on the All Right? Facebook page. The image reads, "Win one of eight $250 Pak'nSave vouchers!" The prize draw was a part of 'Outrageous Burst of All Right: BYO CSO'. This involved the Christchurch Symphony Orchestra surprised customers at Wainoni Pak'nSave by setting up and performing a piece of music in the supermarket itself. The performance and customers reactions were filmed and shared on social media, with All Right? encouraging their followers to share the video around by entering everyone who shared the video into the prize draw for one of eight $250 Pak'nSave vouchers. All Right? posted the image on their Facebook page on 31 March 2014 at 8:33pm.
Photograph captioned by Fairfax, " At the Love and Harmony benefit concert for Canterbury earthquake relief, Chaz Cummings and his sister Kalsey, of Naenae, jive it up in rock 'n' roll fashion for a crowd of one hundred at Naenae Community Centre. They are members of the Hutt Valley Rock 'n' Roll Club, and Chaz was the winner of New Zealand's Got Talent in 2008".
Demolished buildings on Colombo Street, seen from the cordon fence on Moorhouse Avenue. The photographer comments, "Looking like a scene from a Terminator movie, this photo shows rubble from collapsed buildings on Moorhouse Avenue, next to Henry's and Pak'n'Save".
A video showing brass players from the Christchurch Symphony Orchestra performing an impromptu concert at PAK'nSAVE Wainoni on March 27 2014. The video captures customers' reactions as the players set up and perform. Customers are also shown receiving PAK'nSAVE shopping vouchers, donated by PAK'nSAVE, by three dancing 'All Righties'. The video and impromptu concert were organised for the 'Outrageous Burst of All Right: BYO CSO'. All Right? encouraged their Facebook followers to share the video on social media and enter the prize-draw for eight $250 PAK'nSAVE vouchers. The Press published the video on 28 March 2013 at 5:45pm. All Right? uploaded the video to their YouTube account on 31 March 2014. The video was shared more than 400 times on social media by the time of the prize-draw on 8 April 2014.
Martin Setchell, the organist, is shown playing a mouth organ made out of cardboard tubes. This is a comment on the controversy over the replacement of Christchurch Cathedral, which was severely damaged in the Canterbury earthquakes of 2010 and 2011, by a temporary building made out of cardboard tubing. Quantity: 1 digital cartoon(s).
A new installation.
The cartoon depicts a rose window set in a stone wall. The glass circles each contain a dollar sign. Refers to the future of the Christchurch Cathedral after the Canterbury earthquakes of 2010 and 2011. The Anglican Church seemed to only consider the money in arguing that it would be too expensive to be repaired or rebuilt. Title from file name Quantity: 1 digital cartoon(s).
Mitigating the cascade of environmental damage caused by the movement of excess reactive nitrogen (N) from land to sea is currently limited by difficulties in precisely and accurately measuring N fluxes due to variable rates of attenuation (denitrification) during transport. This thesis develops the use of the natural abundance isotopic composition of nitrate (δ15N and δ18O of NO₃-) to integrate the spatialtemporal variability inherent to denitrification, creating an empirical framework for evaluating attenuation during land to water NO₃- transfers. This technique is based on the knowledge that denitrifiers kinetically discriminate against 'heavy' forms of both N and oxygen (O), creating a parallel enrichment in isotopes of both species as the reaction progresses. This discrimination can be quantitatively related to NO₃- attenuation by isotopic enrichment factors (εdenit). However, while these principles are understood, use of NO₃- isotopes to quantify denitrification fluxes in non-marine environments has been limited by, 1) poor understanding of εdenit variability, and, 2) difficulty in distinguishing the extent of mixing of isotopically distinct sources from the imprint of denitrification. Through a combination of critical literature analysis, mathematical modelling, mesocosm to field scale experiments, and empirical studies on two river systems over distance and time, these short comings are parametrised and a template for future NO₃- isotope based attenuation measurements outlined. Published εdenit values (n = 169) are collated in the literature analysis presented in Chapter 2. By evaluating these values in the context of known controllers on the denitrification process, it is found that the magnitude of εdenit, for both δ15N and δ18O, is controlled by, 1) biology, 2) mode of transport through the denitrifying zone (diffusion v. advection), and, 3) nitrification (spatial-temporal distance between nitrification and denitrification). Based on the outcomes of this synthesis, the impact of the three factors identified as controlling εdenit are quantified in the context of freshwater systems by combining simple mathematical modelling and lab incubation studies (comparison of natural variation in biological versus physical expression). Biologically-defined εdenit, measured in sediments collected from four sites along a temperate stream and from three tropical submerged paddy fields, varied from -3‰ to -28‰ depending on the site’s antecedent carbon content. Following diffusive transport to aerobic surface water, εdenit was found to become more homogeneous, but also lower, with the strength of the effect controlled primarily by diffusive distance and the rate of denitrification in the sediments. I conclude that, given the variability in fractionation dynamics at all levels, applying a range of εdenit from -2‰ to -10‰ provides more accurate measurements of attenuation than attempting to establish a site-specific value. Applying this understanding of denitrification's fractionation dynamics, four field studies were conducted to measure denitrification/ NO₃- attenuation across diverse terrestrial → freshwater systems. The development of NO₃- isotopic signatures (i.e., the impact of nitrification, biological N fixation, and ammonia volatilisation on the isotopic 'imprint' of denitrification) were evaluated within two key agricultural regions: New Zealand grazed pastures (Chapter 4) and Philippine lowland submerged rice production (Chapter 5). By measuring the isotopic composition of soil ammonium, NO₃- and volatilised ammonia following the bovine urine deposition, it was determined that the isotopic composition of NO₃ - leached from grazed pastures is defined by the balance between nitrification and denitrification, not ammonia volatilisation. Consequently, NO₃- created within pasture systems was predicted to range from +10‰ (δ15N)and -0.9‰ (δ18O) for non-fertilised fields (N limited) to -3‰ (δ15N) and +2‰ (δ18O) for grazed fertilised fields (N saturated). Denitrification was also the dominant determinant of NO₃- signatures in the Philippine rice paddy. Using a site-specific εdenit for the paddy, N inputs versus attenuation were able to be calculated, revealing that >50% of available N in the top 10 cm of soil was denitrified during land preparation, and >80% of available N by two weeks post-transplanting. Intriguingly, this denitrification was driven by rapid NO₃- production via nitrification of newly mineralised N during land preparation activities. Building on the relevant range of εdenit established in Chapters 2 and 3, as well as the soil-zone confirmation that denitrification was the primary determinant of NO₃- isotopic composition, two long-term longitudinal river studies were conducted to assess attenuation during transport. In Chapter 6, impact and recovery dynamics in an urban stream were assessed over six months along a longitudinal impact gradient using measurements of NO₃- dual isotopes, biological populations, and stream chemistry. Within 10 days of the catastrophic Christchurch earthquake, dissolved oxygen in the lowest reaches was <1 mg l⁻¹, in-stream denitrification accelerated (attenuating 40-80% of sewage N), microbial biofilm communities changed, and several benthic invertebrate taxa disappeared. To test the strength of this method for tackling the diffuse, chronic N loading of streams in agricultural regions, two years of longitudinal measurements of NO₃- isotopes were collected. Attenuation was negatively correlated with NO₃- concentration, and was highly dependent on rainfall: 93% of calculated attenuation (20 kg NO₃--N ha⁻¹ y⁻¹) occurred within 48 h of rainfall. The results of these studies demonstrate the power of intense measurements of NO₃- stable isotope for distinguishing temporal and spatial trends in NO₃ - loss pathways, and potentially allow for improved catchment-scale management of agricultural intensification. Overall this work now provides a more cohesive understanding for expanding the use of NO₃- isotopes measurements to generate accurate understandings of the controls on N losses. This information is becoming increasingly important to predict ecosystem response to future changes, such the increasing agricultural intensity needed to meet global food demand, which is occurring synergistically with unpredictable global climate change.
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Surface rupture and slip from the Mw 7.8 2016 Kaikōura Earthquake have been mapped in the region between the Leader and Charwell rivers using field mapping and LiDAR data. The eastern Humps, north Leader and Conway-Charwell faults ruptured the ground surface in the study area. The E-NE striking ‘The Humps’ Fault runs along the base of the Mt Stewart range front, appears to dip steeply NW and intersects the NNW-NNE Leader Fault which itself terminates northwards at the NE striking Conway-Charwell Fault. The eastern Humps Fault is up to the NW and accommodates oblique slip with reverse and right lateral displacement. Net slip on ‘The Humps’ Fault is ≤4 m and produced ≤4 m uplift of the Mt Stewart range during the earthquake. The Leader Fault strikes NNW-NNE with dips ranging from ~10° west to 80° east and accommodated ≤4 m net slip comprising left-lateral and up-to-the-west vertical displacement. Like the Humps west of the study area, surface-rupture of the Leader Fault occurred on multiple strands. The complexity of rupture on the Leader Fault is in part due to the occurrence of bedding-parallel slip within the Cretaceous-Cenozoic sequence. Although the Mt Stewart range front is bounded by ‘The Humps’ Fault, in the study area neither this fault nor the Leader Fault were known to have been active before the earthquake. Fieldwork and trenching investigations are ongoing to characterise the geometry, kinematics and paleoseismic history of the mapped active faults.
A photograph of an 'All Rightie' posing with a hard hat for the 'BYO CSO' prize draw. The 'BYO CSO' was one of the 'Outrageous Bursts of All Right' projects, in which the Christchurch Symphony Orchestra entertained customers at Wainoni Pak'nSave by setting up and performing a piece of music in the supermarket itself. The performance and customers' reactions were filmed and shared on social media. All Right? encouraged their followers to share the video around by entering everyone who did so into the prize draw for one of eight $250 Pak'nSave vouchers. All Right? posted the photograph on their Facebook page on 8 April 2014 at 6:00am.
Christchurch City Councillor Aaron Keown has brought a building down on top of himself by hammering it with a mallet in his attempt to chain himself to it. Context: Refers to the start of the demolition of the Christchurch Cathedral in the wake of the earthquakes of 2010 and 2011. Aaron Keown has said he will chain himself to the cathedral to stop it being demolished. Quantity: 1 digital cartoon(s).
Under the caption, young people carrying their baggage flutter into the air, away from Canterbury and toward 'Oz'. In September GNS Earth Sciences reported that after the earthquakes, the Greendale and associated faults were still moving as they settled into a new configuration. At the same time the young were leaving Canterbury (and New Zealand) for a better future in Australia. The population of New Zealand was moving into a new configuration. Quantity: 1 digital cartoon(s).