The dried up bottom of an empty pond in Hagley Park. The photographer comments, "The earthquakes in Christchurch ruptured some of the ponds and lakes of Hagley Park".
A pond in Hagley Park, some dried liquefaction are visible at the edges of the pond.
A pond in Hagley Park, some dried liquefaction are visible at the edges of the pond.
Photograph captioned by Fairfax, "Earthquake cleanup. Steel shutters being placed between oxidation ponds at Bromley".
Photograph captioned by Fairfax, "Hugh Hobden, the Model Yacht Club's Commodore, said the club's sailing has been disrupted with the September earthquake severely damaging Victoria Lake, forcing their members to relocate to the Groynes ponds".
Photograph captioned by Fairfax, "Hugh Hobden, the Model Yacht Club's Commodore, said the club's sailing has been disrupted with the September earthquake severely damaging Victoria Lake, forcing their members to relocate to the Groynes ponds".
Photograph captioned by Fairfax, "Hugh Hobden, the Model Yacht Club's Commodore, said the club's sailing has been disrupted with the September earthquake severely damaging Victoria Lake, forcing their members to relocate to the Groynes ponds".
Photograph captioned by Fairfax, "Hugh Hobden, the Model Yacht Club's Commodore, said the club's sailing has been disrupted with the September earthquake severely damaging Victoria Lake, forcing their members to relocate to the Groynes ponds".
Photograph captioned by Fairfax, "Hugh Hobden, the Model Yacht Club's Commodore, said the club's sailing has been disrupted with the September earthquake severely damaging Victoria Lake, forcing their members to relocate to the Groynes ponds".
Photograph captioned by Fairfax, "Hugh Hobden, the Model Yacht Club's Commodore, said the club's sailing has been disrupted with the September earthquake severely damaging Victoria Lake, forcing their members to relocate to the Groynes ponds".
Photograph captioned by Fairfax, "Hugh Hobden, the Model Yacht Club's Commodore, said the club's sailing has been disrupted with the September earthquake severely damaging Victoria Lake, forcing their members to relocate to the Groynes ponds".
Photograph captioned by Fairfax, "Hugh Hobden, the Model Yacht Club's Commodore, said the club's sailing has been disrupted with the September earthquake severely damaging Victoria Lake, forcing their members to relocate to the Groynes ponds".
Photograph captioned by Fairfax, "Hugh Hobden, the Model Yacht Club's Commodore, said the club's sailing has been disrupted with the September earthquake severely damaging Victoria Lake, forcing their members to relocate to the Groynes ponds".
Photograph captioned by Fairfax, "Hugh Hobden, the Model Yacht Club's Commodore, said the club's sailing has been disrupted with the September earthquake severely damaging Victoria Lake, forcing their members to relocate to the Groynes ponds".
Photograph captioned by Fairfax, "Hugh Hobden, the Model Yacht Club's Commodore, said the club's sailing has been disrupted with the September earthquake severely damaging Victoria Lake, forcing their members to relocate to the Groynes ponds".
Photograph captioned by Fairfax, "Hugh Hobden, the Model Yacht Club's Commodore, said the club's sailing has been disrupted with the September earthquake severely damaging Victoria Lake, forcing their members to relocate to the Groynes ponds".
Photograph captioned by Fairfax, "Hugh Hobden, the Model Yacht Club's Commodore, said the club's sailing has been disrupted with the September earthquake severely damaging Victoria Lake, forcing their members to relocate to the Groynes ponds".
Photograph captioned by Fairfax, "Hugh Hobden, the Model Yacht Club's Commodore, said the club's sailing has been disrupted with the September earthquake severely damaging Victoria Lake, forcing their members to relocate to the Groynes ponds. Damaged Victoria Lake showing loss of water".
Photograph captioned by Fairfax, "Phil Thorn has won a trip to Singapore after being nominated by Diane Smith for help he gave during the earthquake. Pictured doing one of his many neighbourly tasks: digging lillies out of Dianne Smith and Heather Smith's pond".
Photograph captioned by Fairfax, "Hugh Hobden, the Model Yacht Club's Commodore, said the club's sailing has been disrupted with the September earthquake severely damaging Victoria Lake, forcing their members to relocate to the Groynes ponds. Damaged Victoria Lake showing loss of water".
Photograph captioned by Fairfax, "Hugh Hobden, the Model Yacht Club's Commodore, said the club's sailing has been disrupted with the September earthquake severely damaging Victoria Lake, forcing their members to relocate to the Groynes ponds. Damaged Victoria Lake showing loss of water".
Photograph captioned by Fairfax, "Phil Thorn has won a trip to Singapore after being nominated by Diane Smith for help he gave during the earthquake. Pictured on his way to doing one of his many neighbourly tasks: digging lillies out of Dianne Smith and Heather Smith's pond".
Photograph captioned by Fairfax, "Phil Thorn has won a trip to Singapore after being nominated by Diane Smith for help he gave during the earthquake. Pictured on his way to doing one of his many neighbourly tasks: digging lillies out of Dianne Smith and Heather Smith's pond".
Photograph captioned by Fairfax, "Phil Thorn has won a trip to Singapore after being nominated by Diane Smith for help he gave during the earthquake. Pictured on his way to doing one of his many neighbourly tasks: digging lillies out of Dianne Smith and Heather Smith's pond".
The majority of Christchurch’s stormwater has historically been discharged untreated directly into urban surface waterways. These receiving waterways have become adversely affected by the contaminants carried in the stormwater, particularly sediment and heavy metals. An event-based contaminant load model was developed to identify the distribution and magnitude of contaminant loads entering the waterway, as well as to assess the reduction in TSS and heavy metal loads that can be achieved by various stormwater management options. The GIS-Excel based model estimates contaminant loads from an individual storm event based on different contributing impervious surfaces and key rainfall characteristics (rainfall intensity, duration, pH and antecedent dry days). It then calculates contaminant reduction loads that could be achieved through source reduction (e.g. green roofs, repainting) as well as from treatment (e.g. raingardens, wet ponds) applied to different surfaces within the catchment. This model differs from other annual load models as it is event-based and accounts for storm characteristics in its calculation of contaminant loads. Christchurch is a valuable case setting due the unique opportunity for retrofitting improved stormwater management in the post-earthquake rebuild. It is anticipated that this modelling approach could later be adapted for use in other urban settings outside of Christchurch.
The magnitude Mw7.8 ‘Kaikōura’ earthquake occurred shortly after midnight on 14 November 2016. This paper presents an overview of the geotechnical impacts on the South Island of New Zealand recorded during the postevent reconnaissance. Despite the large moment magnitude of this earthquake, relatively little liquefaction was observed across the South Island, with the only severe manifestation occurring in the young, loose alluvial deposits in the floodplains of the Wairau and Opaoa Rivers near Blenheim. The spatial extent and volume of liquefaction ejecta across South Island is significantly less than that observed in Christchurch during the 2010-2011 Canterbury Earthquake Sequence, and the impact of its occurrence to the built environment was largely negligible on account of the severe manifestations occurring away from the areas of major development. Large localised lateral displacements occurred in Kaikōura around Lyell Creek. The soft fine-grained material in the upper portions of the soil profile and the free face at the creek channel were responsible for the accumulation of displacement during the ground shaking. These movements had severely impacted the houses which were built close (within the zone of large displacement) to Lyell Creek. The wastewater treatment facility located just north of Kaikōura also suffered tears in the liners of the oxidation ponds and distortions in the aeration system due to ground movements. Ground failures on the Amuri and Emu Plains (within the Waiau Valley) were small considering the large peak accelerations (in excess of 1g) experienced in the area. Minor to moderate lateral spreading and ejecta was observed at some bridge crossings in the area. However, most of the structural damage sustained by the bridges was a result of the inertial loading, and the damage resulting from geotechnical issues were secondary.
The Acheron rock avalanche is located in the Red Hill valley almost 80 km west of Christchurch and is one of 42 greywacke-derived rock avalanches identified in the central Southern Alps. It overlies the Holocene active Porters Pass Fault; a component of the Porters Pass-Amberley Fault Zone which extends from the Rakaia River to beyond the Waimakariri River. The Porters Pass Fault is a dextral strike-slip fault system viewed as a series of discontinuous fault scarps. The location of the fault trace beneath the deposit suggests it may represent a possible source of seismic shaking resulting in the formation of the Acheron rock avalanche. The rock mass composition of the rock avalanche source scar is Torlesse Supergroup greywacke consisting of massive sandstone and thinly bedded mudstone sequences dipping steeply north into the centre of the source basin. A stability analysis identified potential instability along shallow north dipping planar defects, and steep south dipping toppling failure planes. The interaction of the defects with bedding is considered to have formed conditions for potential instability most likely triggered by a seismic event. The dTositional area of the rock avalanche covers 7.2 x 105 m2 with an estimated volume of 9 x 10 m3 The mobilised rock mass volume was calculated at 7.5 x 106 m3• Run out of the debris from the top of the source scar to the distal limit reached 3500m, descending over a vertical fall of almost 700m with an estimated Fahrboschung of 0.2. The run out of the rock avalanche displayed moderate to high mobility, travelling at an estimated maximum velocity of 140-160 km/hour. The rapid emplacement of the deposit is confirmed by highly fragmented internal composition and burial of forest vegetation New radiocarbon ages from buried wood retrieved from the base of Acheron rock avalanche deposit represents an emplacement age closely post-dating (Wk 12094) 1152 ± 51 years B.P. This differs significantly from a previous radiocarbon age of (NZ547) 500 ± 69 years B.P. and modal lichenometry and weathering-rind thickness ages of approximately 460 ± 10 yrs and 490 ± 50 years B.P. The new age shows no resemblance to an earthquake event around 700- 500 years B.P. on the Porters Pass-Amberley Fault Zone. The DAN run out simulation using a friction model rheology successfully replicated the long run out and velocity of the Acheron rock avalanche using a frictron angle of 27° and high earth pressure coefficients of 5.5, 5.2, and 5.9. The elevated earth pressure coefficients represent dispersive pressures derived from dynamic fragmentation of the debris within the mobile rock avalanche, supporting the hypothesis of Davies and McSaveney (2002). The DAN model has potential applications for areas prone to large-scale instability in the elevated slopes and steep waterways of the Southern Alps. A paleoseismic investigation of a newly identified scarp of the Porters Pass Fault partially buried by the rock avalanche was conducted to identify any evidence of a coseismic relationship to the Acheron rock avalanche. This identified three-four fault traces striking at 078°, and a sag pond displaying a sequence of overbank deposits containing two buried soils representing an earthquake event horizon. A 40cm vertical offset of the ponded sediment and lower buried soil horizqn was recorded, which was dated to (Wk 13112 charcoal in palosol) 653 ± 54 years B.P. and (Wk 13034 palosol) 661 ± 34 years B.P. The evidence indicates a fault rupture occurred along the Porters Pass Fault, west of Porters Pass most likely extending to the Red Lakes terraces, post-dating 700 years B.P., resulting in 40cm of vertical displacement and an unknown component of dextral strike slip movement. This event post dates the event one (1000 ± 100 years B.P) at Porters Pass previously considered to represent the most recent rupture along the fault line. This points to a probable source for resetting of the modal weathering-rind thicknesses and lichen size populations in the Red Hill valley and possibly the Red Lakes terraces. These results suggest careful consideration must be given to the geomorphic and paleoseismic history of a specific site when applying surface dating techniques and furthermore the origin of dates used in literature and their useful range should be verified. An event at 700-500 years B.P did not trigger the Acheron rock avalanche as previously assumed supporting Howard's conclusions. The lack of similar aged rupture evidence in either of the Porters Pass and Coleridge trenches supports Howard's hypothesis of segmentation of the Porters Pass Fault; where rupture occurs along one fault segment but not along another. The new rock avalanche age closely post-dating 1200-1100 years B.P. resembles the poorly constrained event one rupture age of 1700-800 years B.P for the Porters Pass Fault and the tighter constrained Round Top event of 1010 ± 50 years B.P. on the Alpine Fault. Eight other rock avalanche deposits spread across the central Southern Alps also resemble the new ages however are unable to be assigned specific earthquake events due to the large associated error bars of± 270 years. This clustering of ages does represent compelling lines of evidence for large magnitude earthquake events occurring over the central Southern Alps. The presence of a rock avalanche deposit does not signify an earthquake based on the historical evidence in the Southern Alps however clustering of ages does suggest that large Mw >7 earthquakes occurred across the Southern Alps between 1200-900 years BP.
Globally, the maximum elevations at which treelines are observed to occur coincide with a 6.4 °C soil isotherm. However, when observed at finer scales, treelines display a considerable degree of spatial complexity in their patterns across the landscape and are often found occurring at lower elevations than expected relative to the global-scale pattern. There is still a lack of understanding of how the abiotic environment imposes constraints on treeline patterns, the scales at which different effects are acting, and how these effects vary over large spatial extents. In this thesis, I examined abrupt Nothofagus treelines across seven degrees of latitude in New Zealand in order to investigate two broad questions: (1) What is the nature and extent of spatial variability in Nothofagus treelines across the country? (2) How is this variation associated with abiotic variation at different spatial scales? A range of GIS, statistical, and atmospheric modelling methods were applied to address these two questions. First, I characterised Nothofagus treeline patterns at a 15x15km scale across New Zealand using a set of seven, GIS-derived, quantitative metrics that describe different aspects of treeline position, shape, spatial configuration, and relationships with adjacent vegetation. Multivariate clustering of these metrics revealed distinct treeline types that showed strong spatial aggregation across the country. This suggests a strong spatial structuring of the abiotic environment which, in turn, drives treeline patterns. About half of the multivariate treeline metric variation was explained by patterns of climate, substrate, topographic and disturbance variability; on the whole, climatic and disturbance factors were most influential. Second, I developed a conceptual model that describes how treeline elevation may vary at different scales according to three categories of effects: thermal modifying effects, physiological stressors, and disturbance effects. I tested the relevance of this model for Nothofagus treelines by investigating treeline elevation variation at five nested scales (regional to local) using a hierarchical design based on nested river catchments. Hierarchical linear modelling revealed that the majority of the variation in treeline elevation resided at the broadest, regional scale, which was best explained by the thermal modifying effects of solar radiation, mountain mass, and differences in the potential for cold air ponding. Nonetheless, at finer scales, physiological and disturbance effects were important and acted to modify the regional trend at these scales. These results suggest that variation in abrupt treeline elevations are due to both broad-scale temperature-based growth limitation processes and finer-scale stress- and disturbance-related effects on seedling establishment. Third, I explored the applicability of a meso-scale atmospheric model, The Air Pollution Model (TAPM), for generating 200 m resolution, hourly topoclimatic data for temperature, incoming and outgoing radiation, relative humidity, and wind speeds. Initial assessments of TAPM outputs against data from two climate station locations over seven years showed that the model could generate predictions with a consistent level of accuracy for both sites, and which agreed with other evaluations in the literature. TAPM was then used to generate data at 28, 7x7 km Nothofagus treeline zones across New Zealand for January (summer) and July (winter) 2002. Using mixed-effects linear models, I determined that both site-level factors (mean growing season temperature, mountain mass, precipitation, earthquake intensity) and local-level landform (slope and convexity) and topoclimatic factors (solar radiation, photoinhibition index, frost index, desiccation index) were influential in explaining variation in treeline elevation within and among these sites. Treelines were generally closer to their site-level maxima in regions with higher mean growing season temperatures, larger mountains, and lower levels of precipitation. Within sites, higher treelines were associated with higher solar radiation, and lower photoinhibition and desiccation index values, in January, and lower desiccation index values in July. Higher treelines were also significantly associated with steeper, more convex landforms. Overall, this thesis shows that investigating treelines across extensive areas at multiple study scales enables the development of a more comprehensive understanding of treeline variability and underlying environmental constraints. These results can be used to formulate new hypotheses regarding the mechanisms driving treeline formation and to guide the optimal choice of field sites at which to test these hypotheses.