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An input-output model of Northland's economy : with application to forestry /Moore, Chris January 1981 (has links)
Thesis (PhD--Theoretical and applied mechanics, School of Engineering)--University of Auckland. / On cover: Ministry of Works and Development. Development and Programming Branch.
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Evolution of the Northland ophiolite, New Zealand: geochemical, geochronological and palaeomagneticconstraintsWhattam, Scott A. January 2003 (has links)
published_or_final_version / Earth Sciences / Doctoral / Doctor of Philosophy
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Garnet-bearing andesites: a case study from Northland, New ZealandBach, Petra. January 2002 (has links)
published_or_final_version / abstract / toc / Earth Sciences / Doctoral / Doctor of Philosophy
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Deep soil mixing as a slope stabilization technique in Northland Allochthon residual clay soilTatarniuk, Catherine January 2014 (has links)
Road slips are common in Northland Allochthon residual clay soil, and are commonly mitigated using deep soil mixing (DSM). A deficiency in laboratory investigations on Northland Allochthon residual clay and a need for a better understanding of the numerical modelling of DSM columns used to mitigate unstable slopes in this soil type is evident in literature, and has been highlighted by practitioners. This research has aimed to fill aspects of these deficiencies.
Field testing and classification tests have provided insight into how the soil varies between sites and with depth, and how in situ testing methods compare to one another. Field testing has also demonstrated that soil property changes around DSM columns have been shown to exist through seismic flat plate dilatometer testing before and after column installation, which has not previously been proven using an in situ method. This is important for practitioners who use DSM to demonstrate the additional soil improvements provided by the columns.
The testing of reconstituted soil is fundamental in examining soil behaviour, and this study is the first to examine the triaxial behaviour of reconstituted specimens of Northland Allochthon soil. Laboratory triaxial testing and oedometer testing have allowed for a normalized comparison of the intact strength of Northland Allochthon residual clay soil to its reconstituted state. This work provides an answer to the important question regarding the role of soil structure in this soil type. It was revealed that soil structure results in increased shear strength of the soil, and that this increase is primarily cohesive in nature. The near coincidence of the post-rupture strength of intact specimens with the critical state angle of internal shearing resistance provides support for its use in examining first time slope failures in this soil type. This is an important finding for practitioners, as it demonstrates the value of testing reconstituted specimens, which are much easier to obtain than high quality intact specimens. In addition, relationships between the plasticity index (PI) of the soil and certain soil parameters (and soil behaviour) have been demonstrated to be relevant and useful for this soil type.
Soil properties acquired in this study were tabulated along with those from other field sites in Northland Allochthon soil. It was found that there is significant variation between field sites, likely due to varying degrees of weathering, which is an important consideration for practitioners dealing with this soil type.
A brief examination of constitutive models for representation of Northland Allochthon residual clay soil have shown that several different models can sufficiently represent the behaviour of this soil. The Mohr-Coulomb model was selected for use in subsequent finite element numerical models. A case study of a road slip at a field site in Northland Allochthon residual clay soil, mitigated using DSM columns, revealed that the use of a pre-existing slip surface after first time failure leads to an improved match between observed field behaviour and the behaviour of the slope as exhibited in a numerical model. This type of failure mechanism has not been previously examined in this soil type, and this case study demonstrates it is a useful approach that should be considered when dealing with second time failure in Northland Allochthon slopes. This numerical model also introduces the replacement ratio method (RRM), a technique used to represent the three dimensional (3D) geometry of the DSM columns in the more commonly used two dimensional (2D) analysis.
Examination of laterally loaded DSM columns in plan view, which has not previously been performed in the context of DSM columns, has illustrated how installation effects and column shape influence load displacement curves, and demonstrates the effects of soil arching. This analysis provides practitioners with evidence that improved soil property changes, found to occur around DSM columns, lead to improved DSM column performance. A simplified 3D numerical model of laterally loaded DSM columns, which builds on the ideas developed in the previous two 2D models, has been compared to an identical 2D model. It is shown that the commonly used RRM results in an overestimation of the resisting force provided by the columns as compared to the 3D model. However, this does not necessarily imply that the use of the RRM in an analysis will always result in a safe slope. The degree to which its use will affect the results will depend on the slope geometry, location of the DSM columns, and the type of analysis performed (i.e. factor of safety or deformation based). A modification to the RRM has been proposed. It is recommended that when the DSM column diameter and soil properties are similar to those used in this study, the MRRM developed in this study should be utilized. In circumstances where they differ, it is recommended that practitioners perform a sensitivity analysis using the MRRM developed here as a basis for modifying the RRM in order to determine the extent to which their results are influenced. If the influence is significant, the use of a 3D model should be considered.
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The impact of metal technology on the Maori of NorthlandAitken, J. (Jefley) J., n/a January 1976 (has links)
This thesis attempts to outline changes in traditional societies, with particular reference to the Maori of Northland, that are related to the introduction of a metal technology. The possibility of recognising such changes from archaeological data is explored.
Chapter One comprises a discussion of the comparative efficiency and effectiveness of metal and non-metal tools. Data from archaeological experiments and ethnographic accounts are used for this purpose. To illustrate the differences between a non-metal and a metal technology and the changes that accrue from the introduction of the latter, ethnographic and ethnohistorical accounts of the impact of metals on other societies are put forward in Chapter Two.
Chapters Three and Four present a review of the prehistoric economy, technology and settlement patterns in Northland, so that the extent and nature of changes that occurred during the protohistoric period may be assessed. In Chapter Five, the conditions under which the Maori obtained metal tools are outlined in order to elicit the changing Maori attitudes toward, and evaluation of, particular metal items.
Chapters Six and Seven review the changes that occurred in Northland during the protohistoric period, principally between 1803 and 1840. Prior to 1803, the quanity of metal in Maori hands was insufficient to effect changes in their way of life, and there is little evidence to suggest that they altered their traditional activities because of a desire to obtain metal goods. After 1840, many Maori had had [sic] such prolonged contact with Europeans that it would be difficult to attribute any changes in Maori society solely to the introduction of a metal technology. Chapter Eight discusses the archaeological implications of the impact of introduced metals and offers propositions that may be evaluated in the light of new archaeological data.
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Le Journal du Père Antoine Garin 1844-1846. Une édition critique présentée avec commentaire, transcription et annotations.Serabian, Hélène January 2006 (has links)
(English) Antoine Marie Garin (1810-1889) was a French Marist priest in charge of a mission station among the Maori people in Mangakahia (Northland) from 1843 to 1847. His personal diary, his ‘Notes de mission’ for the 1844-6 period, is a testimony to his years spent with the Maori and gives a day-to-day account of his evangelisation work. The individual reactions of the people he relates to, especially the Maori people, are reproduced with great care. The value of the document stems mainly from the careful record of the words and thoughts of the persons who Garin meets or the persons he lives with during his work. The quotations, often written in the original language, show the author’s desire to keep and reproduce the point of view of the Other. The sacred task of Garin was to convert the Maori people to Catholic Christianity, but his attitude towards evangelisation was relatively open for a nineteenth-century religious man. Although Garin did not exploit these ‘Notes’ for any published work about his mission, they were the documentary basis for a lecture he gave in 1876 in Nelson about the events of the Hone Heke war which Garin observed in 1845-6. Antoine Garin’s diary is also very interesting for its picture of the mission life of a French Catholic priest living in a Maori world shortly after the Treaty of Waitangi was signed in 1840, at a time when some Maori people were beginning to realise what the Treaty actually meant in their lives. The missionary work of these early French pioneers in the Maori mission is barely known. Finally, the ‘Notes de mission’ are an incredible testimony to Maori life and thought–processes at a time when Maori people were facing a flow of new ideas, new ways of living and new behaviours brought by the Europeans. This document, far from reproducing a culture from the outside, is an attempt to understand in depth and express the thinking of the Other. It will be analysed in the context of a modern post-colonial reading. A careful reading shows that cultural contact between European and Indigenous people was not a one-way process, but involved a two-way relationship in which the two sides of the contact were each involved in transformation and re-interpretation. This thesis presents a transcription of the ‘Notes de mission’ from the original manuscript for the years 1844 to 1846, along with explanatory notes on the text and its variations. Analytical chapters aim to place the document in the context of Garin’s life, the Catholic mission in New Zealand, the Maori reaction to Christianity in the nineteenth century, the events of 1845-6 and the methodology of writing a private journal. / (French) Antoine Marie Garin (1810-1889) était un prêtre missionnaire mariste chargé de la mission maorie de Mangakahia (Northland) de 1843 à 1847. Son journal personnel, intitulé « Notes de mission », pour la période 1844-6, est le témoin de ces années passées parmi les Maoris et retrace au jour le jour son travail d’évangélisation. Les réactions individuelles de ses interlocuteurs, surtout des personnes maories, y sont notées avec soin. L’intérêt du document réside principalement dans l’enregistrement minutieux des paroles des individus que Garin rencontre ou avec lesquelles il vit. Les citations, souvent faites dans la langue d’origine de l’interlocuteur, reflètent la volonté de l’auteur de conserver et de reproduire le point de vue de l’Autre. La mission sacrée de Garin était la conversion des Maoris, mais son attitude vis-à-vis de l’évangélisation était relativement ouverte pour un homme de religion du dix-neuvième siècle. Alors que Garin n’a pas utilisé ces Notes pour la publication d’un ouvrage sur son travail de mission, elles ont servi de source documentaire à une conférence qu’il a donné en 1876 à Nelson sur les événements de la guerre de Hone Heke et Kawiti dont Garin fut en partie le témoin. Le journal de Garin est intéressant aussi pour le rapport de la vie de mission d’un prêtre catholique français immergé dans le monde maori, peu après le Traité de Waitangi de 1840 et lors de la première prise de conscience, par une partie de la population maorie, de ses conséquences. Le travail missionnaire de ces pionniers de la mission maorie est peu ou mal connu. Enfin, ces Notes sont un témoignage exemplaire de la vie et de la pensée maories à une période où elle était confrontée à un afflux d’idées, de manières et d’attitudes nouvelles apportées par la présence européenne. Ce document, loin de dépeindre une autre culture de l’extérieur, est une tentative de comprendre en profondeur et d’exprimer la pensée de l’Autre. Il sera interprété dans le contexte d’une lecture post-colonialiste moderne. Une lecture attentive révèle que le contact entre Européen et peuple indigène n’est nullement un processus à sens unique, mais qu’il implique une relation à double sens, dans lequel les deux côtés des contacts sont eux-mêmes invariablement transformés. Cette thèse présente une transcription du texte manuscrit des « Notes de mission » pour les années 1844 à 1846, accompagnée de notes explicatives sur le texte et ses variations. Des chapitres analytiques visent à replacer le document dans le contexte de la vie de Garin, la mission catholique en Nouvelle-Zélande, la réaction maorie au christianisme au dix-neuvième siècle, les évènements de 1845-6 et la méthodologie d’écriture d’un journal personnel.
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A model of spiritual formation for Northland Community Christian ChurchAllbaugh, Jonathan C. January 1996 (has links)
Thesis (M.A.)--Southern California College, 1996. / Includes bibliographical references.
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Aquatic invertebrate fauna of Matapouri, Northland.Pohe, Stephen Robert January 2008 (has links)
A study of the aquatic invertebrate communities from two locations (Location 1 and Location 2) within the Matapouri catchment in Northland, New Zealand, was conducted to assess community structure in differing local-scale habitats. Four data collection methods were utilised generating 33,058 adult or larval invertebrates. The sampling methods comprised benthic kick-sampling, sticky trapping, light trapping, and emergence trapping. For the sticky trapping and light trapping, sampling was carried out at three different sites (Sites 1–3) within each location. The sites were situated within three habitat types; native forest, native forest-fringe, and raupo wetland. Emergence trapping also commenced within the three sites, at both locations, but was discontinued after two months, due to the equipment being destroyed by consecutive flooding events (method described in Appendix 1). Benthic sampling was carried out within the Forest and Forest-fringe habitats. Benthic sampling, sticky trapping, and light trapping were carried out following a monthly schedule between June and November 2005. Conductivity, pH, and water temperature measurements were taken concurrently with benthic sampling on a monthly basis, while water velocity and substrate measurements were taken once to assist in habitat characterisation. Overall, 71 taxa were recorded by benthic sampling over the six month period, with a mean of approximately 30 taxa per site per month. In comparison with similar studies elsewhere in New Zealand, a figure of around 30 taxa per sample was high. The benthic macroinvertebrate fauna at all sites was dominated by Trichoptera (19 taxa), Diptera (16 taxa) and Ephemeroptera (10 taxa). This pattern of diversity is similar to that reported in other New Zealand studies. However, in contrast to previous studies, the leptophlebiid mayfly genus Deleatidium was not numerically dominant over the rest of the community, and other leptophlebiid genera (Acanthophlebia, Atalophlebioides, Mauiulus and Zephlebia) were equally represented, possibly reflecting niche partitioning between the groups. The genus Nesameletus was not recorded at any site, despite being one of the core mayfly species in New Zealand streams. The rare mayfly Isothraulus abditus was recorded at one of the forest locations. There are no published records of this species from Northland. Although acknowledged as another of the core New Zealand benthic taxa, the hydropsychid caddisfly Aoteapsyche was not recorded during the study. However, another hydropsychid, Orthopsyche, was commonly recorded, and these may be filling a similar niche to the Aoteapsyche genus. In contrast to the Trichoptera, Diptera, and Ephemeroptera, the Plecoptera fauna was relatively depauperate, probably reflecting the warmer climate of the region and lack of temperature-buffered spring-fed streams. Surprisingly, Zelandobius, a core New Zealand genus, was absent but is regularly recorded in Northland. A species of conservation interest, Spaniocercoides watti, currently recognised as a Northland endemic, was recorded in low numbers. There were no apparent trends in diversity or abundance of benthic invertebrates over time. Also, there were no significant differences in species diversity between the two locations. However, in many cases, taxa were more abundant at Location 2. This may have been due to steeper gradients at Location 2, and the consequent effects on substrate size and streambed stability, as all other physical factors appeared similar between locations. Although several significant differences of individual benthic taxa were recorded, no broad effect of habitat (sites) on species diversity was observable. However, at Location 2, abundances were significantly higher at Site 3 (Forest) compared to Site 2 (Forest-fringe). The reasons were uncertain, but may be attributed to higher retention of allochthonous organic materials, trapped by in-stream cover and larger substrates. Investigations of adult stages by sticky traps supported benthic results recording community compositions and abundances dominated by Trichoptera and Diptera. Plecoptera were poorly represented. Location 2 recorded higher abundances of taxa, particularly Ephemeroptera and Plecoptera. Investigations of adult stages by light traps however did not produce any statistically significant differences in abundances between sites, between locations, or between sites across locations, and it is believed to be due to limited sampling replication combined with some biases of light trapping. This study indicates that the aquatic invertebrate community at Matapouri is diverse but also reasonably representative. Several rare or uncommon insects inhabit the catchment. It is therefore important that Iwi and the local Landcare Group, who invited and supported this research, together with the Department of Conservation, continue their efforts in protecting these areas. The resident fauna have the capacity to restock areas downstream, which are intended to be improved and restored through sediment control and riparian management.
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Aquatic invertebrate fauna of Matapouri, Northland.Pohe, Stephen Robert January 2008 (has links)
A study of the aquatic invertebrate communities from two locations (Location 1 and Location 2) within the Matapouri catchment in Northland, New Zealand, was conducted to assess community structure in differing local-scale habitats. Four data collection methods were utilised generating 33,058 adult or larval invertebrates. The sampling methods comprised benthic kick-sampling, sticky trapping, light trapping, and emergence trapping. For the sticky trapping and light trapping, sampling was carried out at three different sites (Sites 1–3) within each location. The sites were situated within three habitat types; native forest, native forest-fringe, and raupo wetland. Emergence trapping also commenced within the three sites, at both locations, but was discontinued after two months, due to the equipment being destroyed by consecutive flooding events (method described in Appendix 1). Benthic sampling was carried out within the Forest and Forest-fringe habitats. Benthic sampling, sticky trapping, and light trapping were carried out following a monthly schedule between June and November 2005. Conductivity, pH, and water temperature measurements were taken concurrently with benthic sampling on a monthly basis, while water velocity and substrate measurements were taken once to assist in habitat characterisation. Overall, 71 taxa were recorded by benthic sampling over the six month period, with a mean of approximately 30 taxa per site per month. In comparison with similar studies elsewhere in New Zealand, a figure of around 30 taxa per sample was high. The benthic macroinvertebrate fauna at all sites was dominated by Trichoptera (19 taxa), Diptera (16 taxa) and Ephemeroptera (10 taxa). This pattern of diversity is similar to that reported in other New Zealand studies. However, in contrast to previous studies, the leptophlebiid mayfly genus Deleatidium was not numerically dominant over the rest of the community, and other leptophlebiid genera (Acanthophlebia, Atalophlebioides, Mauiulus and Zephlebia) were equally represented, possibly reflecting niche partitioning between the groups. The genus Nesameletus was not recorded at any site, despite being one of the core mayfly species in New Zealand streams. The rare mayfly Isothraulus abditus was recorded at one of the forest locations. There are no published records of this species from Northland. Although acknowledged as another of the core New Zealand benthic taxa, the hydropsychid caddisfly Aoteapsyche was not recorded during the study. However, another hydropsychid, Orthopsyche, was commonly recorded, and these may be filling a similar niche to the Aoteapsyche genus. In contrast to the Trichoptera, Diptera, and Ephemeroptera, the Plecoptera fauna was relatively depauperate, probably reflecting the warmer climate of the region and lack of temperature-buffered spring-fed streams. Surprisingly, Zelandobius, a core New Zealand genus, was absent but is regularly recorded in Northland. A species of conservation interest, Spaniocercoides watti, currently recognised as a Northland endemic, was recorded in low numbers. There were no apparent trends in diversity or abundance of benthic invertebrates over time. Also, there were no significant differences in species diversity between the two locations. However, in many cases, taxa were more abundant at Location 2. This may have been due to steeper gradients at Location 2, and the consequent effects on substrate size and streambed stability, as all other physical factors appeared similar between locations. Although several significant differences of individual benthic taxa were recorded, no broad effect of habitat (sites) on species diversity was observable. However, at Location 2, abundances were significantly higher at Site 3 (Forest) compared to Site 2 (Forest-fringe). The reasons were uncertain, but may be attributed to higher retention of allochthonous organic materials, trapped by in-stream cover and larger substrates. Investigations of adult stages by sticky traps supported benthic results recording community compositions and abundances dominated by Trichoptera and Diptera. Plecoptera were poorly represented. Location 2 recorded higher abundances of taxa, particularly Ephemeroptera and Plecoptera. Investigations of adult stages by light traps however did not produce any statistically significant differences in abundances between sites, between locations, or between sites across locations, and it is believed to be due to limited sampling replication combined with some biases of light trapping. This study indicates that the aquatic invertebrate community at Matapouri is diverse but also reasonably representative. Several rare or uncommon insects inhabit the catchment. It is therefore important that Iwi and the local Landcare Group, who invited and supported this research, together with the Department of Conservation, continue their efforts in protecting these areas. The resident fauna have the capacity to restock areas downstream, which are intended to be improved and restored through sediment control and riparian management.
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Aquatic invertebrate fauna of Matapouri, Northland.Pohe, Stephen Robert January 2008 (has links)
A study of the aquatic invertebrate communities from two locations (Location 1 and Location 2) within the Matapouri catchment in Northland, New Zealand, was conducted to assess community structure in differing local-scale habitats. Four data collection methods were utilised generating 33,058 adult or larval invertebrates. The sampling methods comprised benthic kick-sampling, sticky trapping, light trapping, and emergence trapping. For the sticky trapping and light trapping, sampling was carried out at three different sites (Sites 1–3) within each location. The sites were situated within three habitat types; native forest, native forest-fringe, and raupo wetland. Emergence trapping also commenced within the three sites, at both locations, but was discontinued after two months, due to the equipment being destroyed by consecutive flooding events (method described in Appendix 1). Benthic sampling was carried out within the Forest and Forest-fringe habitats. Benthic sampling, sticky trapping, and light trapping were carried out following a monthly schedule between June and November 2005. Conductivity, pH, and water temperature measurements were taken concurrently with benthic sampling on a monthly basis, while water velocity and substrate measurements were taken once to assist in habitat characterisation. Overall, 71 taxa were recorded by benthic sampling over the six month period, with a mean of approximately 30 taxa per site per month. In comparison with similar studies elsewhere in New Zealand, a figure of around 30 taxa per sample was high. The benthic macroinvertebrate fauna at all sites was dominated by Trichoptera (19 taxa), Diptera (16 taxa) and Ephemeroptera (10 taxa). This pattern of diversity is similar to that reported in other New Zealand studies. However, in contrast to previous studies, the leptophlebiid mayfly genus Deleatidium was not numerically dominant over the rest of the community, and other leptophlebiid genera (Acanthophlebia, Atalophlebioides, Mauiulus and Zephlebia) were equally represented, possibly reflecting niche partitioning between the groups. The genus Nesameletus was not recorded at any site, despite being one of the core mayfly species in New Zealand streams. The rare mayfly Isothraulus abditus was recorded at one of the forest locations. There are no published records of this species from Northland. Although acknowledged as another of the core New Zealand benthic taxa, the hydropsychid caddisfly Aoteapsyche was not recorded during the study. However, another hydropsychid, Orthopsyche, was commonly recorded, and these may be filling a similar niche to the Aoteapsyche genus. In contrast to the Trichoptera, Diptera, and Ephemeroptera, the Plecoptera fauna was relatively depauperate, probably reflecting the warmer climate of the region and lack of temperature-buffered spring-fed streams. Surprisingly, Zelandobius, a core New Zealand genus, was absent but is regularly recorded in Northland. A species of conservation interest, Spaniocercoides watti, currently recognised as a Northland endemic, was recorded in low numbers. There were no apparent trends in diversity or abundance of benthic invertebrates over time. Also, there were no significant differences in species diversity between the two locations. However, in many cases, taxa were more abundant at Location 2. This may have been due to steeper gradients at Location 2, and the consequent effects on substrate size and streambed stability, as all other physical factors appeared similar between locations. Although several significant differences of individual benthic taxa were recorded, no broad effect of habitat (sites) on species diversity was observable. However, at Location 2, abundances were significantly higher at Site 3 (Forest) compared to Site 2 (Forest-fringe). The reasons were uncertain, but may be attributed to higher retention of allochthonous organic materials, trapped by in-stream cover and larger substrates. Investigations of adult stages by sticky traps supported benthic results recording community compositions and abundances dominated by Trichoptera and Diptera. Plecoptera were poorly represented. Location 2 recorded higher abundances of taxa, particularly Ephemeroptera and Plecoptera. Investigations of adult stages by light traps however did not produce any statistically significant differences in abundances between sites, between locations, or between sites across locations, and it is believed to be due to limited sampling replication combined with some biases of light trapping. This study indicates that the aquatic invertebrate community at Matapouri is diverse but also reasonably representative. Several rare or uncommon insects inhabit the catchment. It is therefore important that Iwi and the local Landcare Group, who invited and supported this research, together with the Department of Conservation, continue their efforts in protecting these areas. The resident fauna have the capacity to restock areas downstream, which are intended to be improved and restored through sediment control and riparian management.
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