Can supervise: YES
Allan, P, Bryant, M & Yarina, L 2019, 'Applying and communicating indigenous land management knowledge systems and practices to climate change adaptation', Historic Environments, vol. 31, no. 2, pp. 36-36.
Allan, P, Yarina, L & Bryant, M 2019, 'Hybrid Landscapes: preservation and resilience for designing in dynamic cultural contexts', Journal of Architectural Education.
There has often been a mutually beneficial relationship between cities and their rural hinterlands. The Kapiti region outside the city of Wellington in New Zealand is a prime example: it once provided Wellington's food, water and cultural diversity for both Māori and European settlers. However, productivity-driven agriculture and extensive dormitory-suburbanization have affected significant parts of this once-abundant hinterland. Food production is becoming more mono-cultural, water quality is degrading, ecosystems' biodiversity is disappearing, provincial town centres are shrinking, emigrating youth are leaving unbalanced demographics, Māori are increasingly disassociating their culture from their traditional lands and natural disasters are causing more impact—all of which is making Kapiti less resilient, and severing the once-healthy city-hinterland relationship. Our work on future settlement opportunities in Kapiti proposes alternatives, using experimental design-led research methods to develop speculative architectural and landscape architectural schemes. The schemes are framed by some of the spatial attributes of resilience: diversity, complexity, redundancy, interconnectivity and adaptability. Collectively, the work reveals design strategies that have a potential to rebuild hinterlands' culture, town centres, housing, agriculture, community and ecosystems and to recalibrate the broader relationship between hinterlands and metropolitan systems.
Bryant, M, Allan, P & Smith, H 2017, 'Climate Change Adaptations for Coastal Farms: Bridging Science and Mātauranga Māori with Art and Design', TPJ The Plan Journal, vol. 2, no. 2, pp. 497-518.View/Download from: Publisher's site
Indigenous coastal farming communities need to address future climate change impacts, yet many communities are slow to respond, due to lack of adequate information, economic pressures, the abstract nature of climate change science and poor communication between what science knows and what indigenous farming communities need to know. Art and design can address these issues by synthesizing broad scientific principles with local place-specific culture and their visual language can effectively communicate short and long-term benefits to local communities. Art and design are thus both generative research methods and media for representation. This research uses art and design to provide a bridge between the Māori culture of a local farming community in coastal New Zealand and climate change science. It provides a framework of strategies for new farm practices. Underpinned by the qualitative awareness of thresholds and an open-ended toolbox of land-based strategies, the role of the framework is to catalyze adaptation. The framework is responsive to both the Māori worldview and scientific knowledge, and has the potential to provide a model for other coastal communities.
The article offers information on the word "HĪkoi" which is used for walking and talking and it harbours something about movement and something about a world view that links land to life to ancestry. Topics discussed includes landscape in Aotearoa New Zealand, the 2015 New Zealand Institute of Landscape Architects awards show and important role of the user in innovation in landscape architecture.
Allan, P & Bryant, M 2014, 'The attributes of resilience : a tool in the evaluation and design of earthquake-prone cities', International Journal of Disaster Resilience in the Built Environment, pp. 109-129.View/Download from: Publisher's site
– This paper aims to propose the concept of resilience as a way of aligning these disciplines. Theories of recovery planning and urban design theories have a common interest in providing for the health and safety of urban communities. However, the requirements of safe refuge and recovery after a disturbance, such as an earthquake, are sometimes at odds with theories of urbanism.
– The paper analyses the data from two case studies: the earthquake and fire of 1906 in San Francisco and the Chile earthquake of 2010. It uses a set of resilience attributes already embedded in the discourse of urban theory to evaluate each city's built environment and the way people have adapted to that built environment to recover following an earthquake.
– The findings suggests that resilience attributes, when considered interdependently, can potentially assist in the design of resilient cities which have an enhanced capacity to recover following an earthquake.
– They also suggest that the key to the successful integration of recovery planning and urban design lies in a shift of thinking that sees resilience as a framework for the design of cities that not only contributes significantly to the quality of everyday urban life but also can be adapted as essential life support and an agent of recovery in the event of an earthquake.
Allan, P, Bryant, M, Wirsching, C, Garcia, D & Teresa Rodriguez, M 2013, 'The Influence of Urban Morphology on the Resilience of Cities Following an Earthquake', Journal of Urban Design, vol. 18, no. 2, pp. 242-262.View/Download from: Publisher's site
This paper proposes a conceptual theory of resilience in urbanism and demonstrates its application through a case study. The theory's underpinnings are the attributes of resilience that have been developed in ecological sciences, but have clear parallels in urbanism. They suggest that it may be possible to enhance the resilience of a city through the design of its urban morphology. The paper explores these ideas by examining the relationship between the community's adaptive behaviour and the spaces of the city of Concepción after its 2010 earthquake. This empirical evidence suggests that the role of the urban designer in earthquake-prone cities is perhaps more critical before an earthquake happens and that the more the idea of a resilient urban morphology is embedded as part of daily life, the more effective it is likely to be in the aftermath of a major earthquake.
Theories of recovery planning and urban design share a common interest in providing for the health and safety of urban communities. However, the requirements of safe refuge and recovery after a disturbance, such as an earthquake, are sometimes at odds with theories of urbanism. This paper proposes the concept of resilience and its interdependent attributes as a way of aligning these theories. It tests the concept through a focus on two case studies, the 1906 San Francisco earthquake and the Chile earthquake of 2010. The key to the successful integration of recovery planning and urban design lies in a shift of thinking that sees resilience as a framework for the design of urban space so that it can not only contribute significantly to the quality of everyday urban life but also can be adapted as essential life support and an agent of recovery in the event of a disaster.
Cowan, H, Beattie, G, Hill, K, Evans, N, McGhie, C, Gibson, G, Lawrance, G, Hamilton, J, Allan, P, Bryant, M, Davis, M, Hyland, C, Oyarzo-Vera, C, Quintana-Gallo, P & Smith, P 2011, 'The M8.8 Chile earthquake, 27 february 2010', Bulletin of the New Zealand Society for Earthquake Engineering, vol. 44, no. 3, pp. 123-166.
The largest earthquake of 2010 by magnitude (Mw8.8), and the subject of this article, struck south-central Chile in the early hours of 27 February 2010. The earthquake was a "mega-thrust" event, involving the rupture of a section of the Nazca-South American plate boundary, where the Nazca plate dips at a shallow angle beneath the Pacific margin of South America. Understanding this event and its effects, including tsunami is of particular significance to urban centres that share close proximity to "subduction zones". These include Seattle, Vancouver, Tokyo and Wellington, together with smaller New Zealand towns of the eastern North Island and upper South Island. The tectonic setting of south-central Chile has similarities to the East Coast of the North Island, and the modern built environment of Chile shares attributes with New Zealand. However, New Zealand has not experienced a large subduction earthquake in the North Island region in at least 200 years, so an understanding of the Chile event and its impact is important for bench-marking of local practices and building resilience. This report summarises the observations of the NZSEE/EQC teams, supplemented by media updates on the Chilean reconstruction experience one year after the earthquake.
Part of the series Key Concepts in Indigenous Studies, this book focuses on the concepts that recur in any discussion of nature, culture and society among the indigenous.
Allan, P, Smith, H & Bryant, M 2020, 'Mātauranga Māori, art and design: unconventional ways for addressing climate change impacts' in Devy, GN & Davis, G (eds), Key Concepts in Indigenous Studies, Routledge.
Allan, P & Bryant, M 2019, 'Thresholds and contingencies: A design process for regional coastal resilience' in Mossop, E (ed), Sustainable Coastal Design and Planning, Routledge, Abbingdon, pp. 277-292.
Adaptation for climate change and resilience in coastal regions outside urban centers will be a protracted program. Cities, with their high population densities and capital investment, are deemed most vulnerable to the impacts of climate change, and hence this is where most research and money is invested. However, the impacts of climate change in underfunded coastal regions are likely to be no less significant. From a resilience perspective, these regions provide a back-up service to the cities. They provide biodiversity and recreation opportunities and, with worldwide food and water scarcity likely to be one of the most significant threats of climate change, and as producers of a high percentage of these resources, they have the potential to contribute to global solutions.Although the climate change impacts associated with rural, urban, and suburban sites in coastal regions are similar, the challenges are somewhat different. For coastal farms to remain viable, access to land is critical, but inundation from flooding and sea level rise is likely to effectively diminish arable land in low lying areas by up to 50% in some cases. And, because land is relatively cheap, extensive suburban development continues to occur along the seafront with road networks that prioritize waterfront views for individual houses over neighborhood amenity and community networks. Perhaps most significant is that there are very few financial incentives to alter the status quo. This chapter addresses a way of thinking about adaptation to climate change in regional coastal areas that relies not on financial incentives and government policy, but rather on a community-based approach.
Bryant, M & Allan, P 2013, 'Open Space Innovation in Earthquake Affected Cities' in Tiefenbacher, J (ed), Approaches to Disaster Management - Examining the Implications of Hazards, Emergencies and Disasters, In-Tech, USA, pp. 183-204.View/Download from: Publisher's site
There are two types of resilience: engineering resilience, and ecological resilience.  Engi‐
neering resilience is drawn from environmental sciences where the resistance to disturbance
and rate of return to an optimal equilibrium is paramount. It is predicated on understanding
the componentry of a system, the universal applicability of resilience principles, and its
'efficiency, constancy and predictability'  – all attributes at the core of engineers' briefs for
Ecological resilience (ex ecological sciences) is about the interrelatedness of a system's
components and forces; how a system can undergo change and still retain function and
structure; how it can self-organize; and how it can increase the capacity for learning and
adaptation.  Evolution exemplifies ecological resilience: it is a force (within a system) that
uses random mutations of components (of a system) to lasting advantage. But it is hard to
predict how it will work. The characteristics of ecological resilience are immeasurable, different
at different scales, dependent on persistence, change and unpredictability, balanced by
multiple equilibria, and accepting of experimentation, knowing that it is safe to fail. These
characteristics may not always be apparent, but will probably surface when there is a disturb‐
ance, when there is a need to adapt.  Nature tells us, paradoxically, that it is perhaps a
mistake to try too hard to avoid shocks; that stability lets risk accumulate without providing
capability or capacity to deal with disaster; and that volatility actually keeps things manageable
In the wake of apocalyptic disturbances, such as hurricanes, floods and earthquakes, the
concept of resilience has penetrated recent urbanism theory. But which type of resilience?
Iswoyo, H, Dariati, T, Vale, B & Bryant, M 2018, 'Contribution of urban farms to urban ecology of a developing city', IOP Conference Series: Earth and Environmental Science.View/Download from: Publisher's site
© Published under licence by IOP Publishing Ltd. Urban ecology has become a more popular concern as the awareness for mutual sharing between humans and other ecosystem members is increasing. This study aimed at assessing the value of urban farms in the city of Makassar, a fast-developing Indonesian city which according to its city council classification covered significant area of the city. The research employed Rapid Biodiversity Assessment (RBA) to assess quality of urban farms. The method assessed two important aspects of spaces in terms of ecology i.e. vegetation structures and vascular plants. Results showed the biodiversity of urban farms in Makassar compared to other typologies was high. Urban farms in Makassar in general have potential for ecological spots because despite they are more cultural than natural, their high plant biodiversity score, dominance of trees and less built areas make them always available for improvement to become more ecological spots.
© Published under licence by IOP Publishing Ltd. Humans have been dominating the urban areas with their abilities and unfavourably tend to have affected other living creatures. This paper directed how to acquire a place in the cities for creating opportunities for birds that live in the cities to live together with us. Several methods were applied emphasizing on Urban Rapid Biodiversity Assessment (RBA) which was adjusted for tropical environments. Vegetation structure, Domain value and the diversity of vascular plants are components determining the quality preference for birds. Results indicated that stream corridors were the best accommodating spaces with an average number of vascular plants was 27; the average number of existing vegetation structures amounted up to 7.00; the average of the total Domain values of all vegetation structures excluding buildings was 24.00 and the average of the total Domain value of all trees was 11.00. Furthermore there were as well empty fields, road corridors, institutional space, green spaces for the public, urban farms and wetlands. The quality of spaces for city birds could be more specific by adding additional filtering of size, ownership, and a development plan. Networking with natural areas would be more feasible if more space were included. Available spaces would be greater when the state of ownership was not limited, despite public spaces were much easier to manage.
Bryant, M 2014, 'Touchstones in design: learning through interdisciplinary collaboration', Proceedings - Architectural design research symposium. Touchstones in design: learning through interdisciplinary collaboration, Architectural Design Research Symposium, Victoria University of Wellington., New Zealand, pp. 60-62.
Bryant, M, Kebbell, S, Charleson, A, Leslie, C, Adams-Winch, R & Wilson, C 2018, 'Kapiti Watchtower', ADR 18 Exhibition, Sydney University September 26-30, 2018; Aucland Architecture Awards Exhibition, Auckland University 9-12 December 2018..
The project entails a speculation on an imagined visitor centre on the Kapiti Coast in the hinterland of Wellington, New Zealand. The visitor centre provides a medium to explore the shifting relationships between building, people and environment, using the transience of visitors, the flux of a coastal setting and the relative permanence of a building. The project's intent is to look at the way in which buildings can be part of the feedback loop between people and environment, and how built form can be informed by its environment and inform people of their environment. The output is a portfolio of artefacts that includes firstly a series of design drawings and models used in exhibitions, popular media and award entries, and secondly an edited book that discusses the opportunity.
The physical design proposed a museum, biosecurity checkpoint, pier and boat terminal on the dynamic mainland coast where visitors could learn about changes to the local environment, and conservation work on the island. The building proposal is organised around the axes of a three-dimensional grid system, with a cardinal crucifix arrangement, and friction piles to provide regular points of stability in an otherwise highly ephemeral landscape. The landscape proposal integrates through the shifting fore dunes and wetlands of the storm-affected coast. Half straddling the stark windward slope of the dunes, and half- protected on the leeward, the building is a dune building machine that disturbs wind flows and allows dunes to build up and stabilise, before they are inevitably blown out, allowing the dune building process to start again. In the slack dune ephemeral wetlands and estuarine streams ebb and flow, their form and wateriness (and human program) contingent on the sand slopes, on ground water levels, on rainfall and on sea level rise.
The building and its landscape is, what we called, a Museum of Itself (MOI). Its self responds to selfie culture, where tourists foreground their own g...
Presents the outputs of nationally (NZ) funded research project: Adaptation Strategies to Address Climate Change Impacts on Coastal Māori Communities in Aotearoa-New Zealand