89 research outputs found
Polynesian Irrigation: Archaeological and Linguistic Evidence for Origins and Development
Most tropical and subtropical Polynesian high islands exhibit landscape modifications such as terracing or ditching, or both, resulting from prehistoric irrigation of taro (Colocasia esculenta). Because of the technological and hydraulic similarities between such Polynesian taro irrigation and Southeast Asian rice irrigation, some prehistorians have traced Polynesian irrigation practices back to a Proto-Austronesian homeland region in Southeast Asia. Other scholars have advocated an independent development of pondfield irrigation in the Pacific Islands. In this paper we draw upon two independent lines of evidence to test these alternative hypotheses. Chronologically controlled archaeological evidence for irrigation indicates a relatively late development of irrigation works in those Islands investigated thus far. This evidence is corroborated by systematic comparison of the lexical terms associated with irrigation among speakers of Oceanic languages. The linguistic analysis yields no evidence for an early terminological set associated with pondfield agriculture, but distinct sets of western and eastern Polynesian cognate reflexes indicate independent development of irrigation in those regions. KEYWORDS: Oceania, Polynesia, prehistoric agriculture, irrigation, taro
Plant Management Systems of British Columbia\u27s First Peoples
This article provides an overview of the diverse plant resource management strategies of First Nations of British Columbia. Management practices range from relatively large-scale (geographically) and longterm activities â such as the use of fire to clear prairies and subalpine meadows â to very focused actions, such as the pruning of individual shrubs. We describe plant resource management practices and the diverse methods used to identify them, and focus on three case studies to augment this description. These case studies exemplify the range of plants and ecosystems that were managed as well as the combinations of strategies and outcomes encompassed within these systems. While we focus our review on coastal British Columbia, we recognize that these are practices that occurred throughout northwestern North America. We also recognize that plant management is nested within a larger continuum of management practices that encompassed terrestrial and aquatic animals and their ecosystems (Carpenter, Humchitt, and Eldridge 2000; Lepofsky and Caldwell in press; Thornton et al. 2010). We end this summary with a discussion of how traditional and ânewâ management approaches introduced by European newcomers were integrated into âmoditional management systems,â and we identify some of the more recent trends in the study of Indigenous management systems. Finally, we focus on future prospects for traditional plant management as part of the contemporary movements towards ethnoecological restoration, cultural renewal, and enhanced food security for Indigenous peoples â a point explored more fully in the final section of this special issue
Ethnobiology Through Song
Music is recognized as an essential constituent of the diversity of life on Earth and is enshrined in the concept of biocultural diversity. While research shows that song is an untapped library of biocultural memory, ethnobiologists have not yet explored the many areas in which studying songs and music through an ethnobiological lens could bring into focus the multi-dimensional relationships among humans and their biological worlds. 'the research articles in this special issue illustrate the importance of songs as both a repository of ethnobiological knowledge and as a means to construct, maintain, and mobilize peoples' intimate relations with their local ecologies. Although many traditional music-making systems are under risk of attrition, the extent to which traditional songs continue to be performed and celebrated in many Indigenous and local communities attests not just to the endurance and resilience of their cultures, but also to their deep cultural attachment to their lands as manifested through song. this special issue constitutes one significant step towards the recognition of music both as a timeless prism for looking at human-nature inter-relations, in all their complexities and magnificence, and as an essential form of biocultural heritage, worthy of documentation, conservation, and revitalization.Peer reviewe
High Potential for Using DNA from Ancient Herring Bones to Inform Modern Fisheries Management and Conservation
Pacific herring (Clupea pallasi) are an abundant and important component of the coastal ecosystems for the west coast of North America. Current Canadian federal herring management assumes five regional herring populations in British Columbia with a high degree of exchange between units, and few distinct local populations within them. Indigenous traditional knowledge and historic sources, however, suggest that locally adapted, distinct regional herring populations may have been more prevalent in the past. Within the last century, the combined effects of commercial fishing and other anthropogenic factors have resulted in severe declines of herring populations, with contemporary populations potentially reflecting only the remnants of a previously more abundant and genetically diverse metapopulation. Through the analysis of 85 archaeological herring bones, this study attempted to reconstruct the genetic diversity and population structure of ancient herring populations using three different marker systems (mitochondrial DNA (mtDNA), microsatellites and SNPs). A high success rate (91%) of DNA recovery was obtained from the extremely small herring bone samples (often <10 mg). The ancient herring mtDNA revealed high haplotype diversity comparable to modern populations, although population discrimination was not possible due to the limited power of the mtDNA marker. Ancient microsatellite diversity was also similar to modern samples, but the data quality was compromised by large allele drop-out and stuttering. In contrast, SNPs were found to have low error rates with no evidence for deviations from Hardy-Weinberg equilibrium, and simulations indicated high power to detect genetic differentiation if loci under selection are used. This study demonstrates that SNPs may be the most effective and feasible approach to survey genetic population structure in ancient remains, and further efforts should be made to screen for high differentiation markers.This study provides the much needed foundation for wider scale studies on temporal genetic variation in herring, with important implications for herring fisheries management, Aboriginal title rights and herring conservation
High Potential for Using DNA from Ancient Herring Bones to Inform Modern Fisheries Management and Conservation
Pacific herring (Clupea pallasi) are an abundant and important component of the coastal ecosystems for the west coast of North America. Current Canadian federal herring management assumes five regional herring populations in British Columbia with a high degree of exchange between units, and few distinct local populations within them. Indigenous traditional knowledge and historic sources, however, suggest that locally adapted, distinct regional herring populations may have been more prevalent in the past. Within the last century, the combined effects of commercial fishing and other anthropogenic factors have resulted in severe declines of herring populations, with contemporary populations potentially reflecting only the remnants of a previously more abundant and genetically diverse metapopulation. Through the analysis of 85 archaeological herring bones, this study attempted to reconstruct the genetic diversity and population structure of ancient herring populations using three different marker systems (mitochondrial DNA (mtDNA), microsatellites and SNPs). A high success rate (91%) of DNA recovery was obtained from the extremely small herring bone samples (often <10 mg). The ancient herring mtDNA revealed high haplotype diversity comparable to modern populations, although population discrimination was not possible due to the limited power of the mtDNA marker. Ancient microsatellite diversity was also similar to modern samples, but the data quality was compromised by large allele drop-out and stuttering. In contrast, SNPs were found to have low error rates with no evidence for deviations from Hardy-Weinberg equilibrium, and simulations indicated high power to detect genetic differentiation if loci under selection are used. This study demonstrates that SNPs may be the most effective and feasible approach to survey genetic population structure in ancient remains, and further efforts should be made to screen for high differentiation markers.This study provides the much needed foundation for wider scale studies on temporal genetic variation in herring, with important implications for herring fisheries management, Aboriginal title rights and herring conservation
Historical Indigenous Land-Use Explains Plant Functional Trait Diversity
Human land-use legacies have long-term effects on plant community composition and ecosystem function. While ancient and historical land use is known to affect biodiversity patterns, it is unknown whether such legacies affect other plant community properties such as the diversity of functional traits. Functional traits are a critical tool for understanding ecological communities because they give insights into community assembly processes as well as potential species interactions and other ecosystem functions. Here, we present the first systematic study evaluating how plant functional trait distributions and functional diversity are affected by ancient and historical Indigenous forest management in the Pacific Northwest. We compare forest garden ecosystems - managed perennial fruit and nut communities associated exclusively with archaeological village sites - with surrounding periphery conifer forests. We find that forest gardens have substantially greater plant and functional trait diversity than periphery forests even more than 150 years after management ceased. Forests managed by Indigenous peoples in the past now provide diverse resources and habitat for animals and other pollinators and are more rich than naturally forested ecosystems. Although ecological studies rarely incorporate Indigenous land-use legacies, the positive effects of Indigenous land use on contemporary functional and taxonomic diversity that we observe provide some of the strongest evidence yet that Indigenous management practices are tied to ecosystem health and resilience. 
3500 Years of Shellfish Mariculture on the Northwest Coast of North America
Ancient systems of mariculture were foundations of social-ecological systems of many coastal Indigenous Peoples. However, since such systems either do not leave tangible remains in the archaeological record, and/or are hard to date, we know little about their development and use. Clam gardens, traditional mariculture features located within the intertidal zone along the Northwest Coast of North America, are composed of a rock wall positioned at the low tide mark and a flattened terrace on the landward side of the wall. Because these features are largely composed of rock and sediment, and have complex formation histories, they can be difficult to age. On northern Quadra Island, British Columbia, we identify three variations in clam garden form, constructed in different geomorphological settings, each of which require different sampling approaches to obtain ages on construction and ongoing use. To age the clam gardens, we consider radiocarbon dating of invertebrates that inhabit beach deposits (both pre- and post-garden construction), and the relationship of the gardens and clam samples to the local sea level history and taphonomic processes. Within our study area, we find clam gardens have been in use for 3500 years, likely corresponding to other social and ecological changes of the time. These data allow us to formulate guidelines on samples most suitable to constrain the age of initial and on-going wall construction and use of clam gardens, which can be extrapolated to dating other ancient mariculture features in other regions. Such dating programs are the foundation for understanding the long-term development of traditional marine management practices and how they are situated in broader social-ecological systems
Scientists' Warning to Humanity on Threats to Indigenous and Local Knowledge Systems
The knowledge systems and practices of Indigenous Peoples and local communities play critical roles in safeguarding the biological and cultural diversity of our planet. Globalization, government policies, capitalism, colonialism, and other rapid social-ecological changes threaten the relationships between Indigenous Peoples and local communities and their environments, thereby challenging the continuity and dynamism of Indigenous and Local Knowledge (ILK). In this article, we contribute to the âWorld Scientists' Warning to Humanity,â issued by the Alliance of World Scientists, by exploring opportunities for sustaining ILK systems on behalf of the future stewardship of our planet. Our warning raises the alarm about the pervasive and ubiquitous erosion of knowledge and practice and the social and ecological consequences of this erosion. While ILK systems can be adaptable and resilient, the foundations of these knowledge systems are compromised by ongoing suppression, misrepresentation, appropriation, assimilation, disconnection, and destruction of biocultural heritage. Three case studies illustrate these processes and how protecting ILK is central to biocultural conservation. We conclude with 15 recommendations that call for the recognition and support of Indigenous Peoples and local communities and their knowledge systems. Enacting these recommendations will entail a transformative and sustained shift in how ILK systems, their knowledge holders, and their multiple expressions in lands and waters are recognized, affirmed, and valued. We appeal for urgent action to support the efforts of Indigenous Peoples and local communities around the world to maintain their knowledge systems, languages, stewardship rights, ties to lands and waters, and the biocultural integrity of their territoriesâon which we all depend.Peer reviewe
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A Radiocarbon Chronology for Prehistoric Agriculture in the Society Islands, French Polynesia
From the 15th International Radiocarbon Conference held in Glasgow, Scotland, August 15-19, 1994.I discuss a suite of 29 radiocarbon age determinations from four valleys on the islands of Mo'orea and Raiatea in the Society Archipelago. These dates provide the first sequence for the development of prehistoric agricultural production and human-induced environmental change in the Society Islands. Indirect evidence of small-scale agriculture, and by association, human occupation, dates to at least the 7th-10th centuries AD. Agricultural sites themselves date from the early 13th century AD until the late prehistoric/early historic period, with most agricultural activity clustering at the end of the temporal sequence. Valleys with the greatest arable potential were cultivated earlier than less preferred sites. Evidence for extensive landscape transformation in the Opunohu Valley, likely associated with clearing for agricultural purposes, begins soon after the earliest evidence for cultivation and continues throughout prehistory. A larger sample of 14C determinations from stratigraphic excavations in both archaeological sites and "off-site" contexts is required to address many as yet unanswered questions about the prehistoric social and economic development of the Society Islands.This material was digitized as part of a cooperative project between Radiocarbon and the University of Arizona Libraries.The Radiocarbon archives are made available by Radiocarbon and the University of Arizona Libraries. Contact [email protected] for further information.Migrated from OJS platform February 202
The Clam Garden Network Exploring the Social and Ecological Contexts of Clam Management in the Past, Present, and Future
Clam gardens are one of a suite of ancient mariculture practices used by the Indigenous Peoples of the Northwest Coast to increase the abundance and accessibility of clams. By bringing together traditional knowledge with that of western science, researchers in the Clam Garden Network have learned that these innovative rock-walled terraces were built from Alaska to Washington State beginning 4000 years ago. Today, Native Americans and First Nations are revitalizing these ancient practices as a way to honor their heritage, enhance food security, and assert their traditional rights to manage resources in their own territories.https://pdxscholar.library.pdx.edu/archaeology-roadshow/1013/thumbnail.jp
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