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Early Austronesians Cultivated Rice and Millet Together: Tracing Taiwan’s First Neolithic Crops
This study presents the first directly dated physical evidence of crop remains from the Early Neolithic archaeological layers in Taiwan. Systematic sampling and analysis of macro-plant remains suggested that Neolithic farmers at the Zhiwuyuan (Botanical Garden) site in Taipei, northern Taiwan, had cultivated rice and foxtail millet together at least 4,500 years ago. A more comprehensive review of all related radiocarbon dates suggests that agriculture emerged in Taiwan around 4,800–4,600 cal. BP, instead of the previous claim of 5,000 cal. BP. According to the rice grain metrics from three study sites of Zhiwuyuan, Dalongdong, and Anhe, the rice cultivated in northern and western-central Taiwan was mainly a short-grained type of the
japonica
subspecies, similar to the discoveries from the southeast coast of mainland China and the middle Yangtze valley. These new findings support the hypothesis that the southeast coast of mainland China was the origin of proto-Austronesian people who brought their crops and other cultural traditions across the Taiwan Strait 4,800 years ago and eventually farther into Island Southeast Asia.
Journal Article
Postnormal conservation : botanic gardens and the reordering of biodiversity governance
Since their inception in the sixteenth century, botanic gardens have been embroiled with matters of governance. In 'Postnormal Conservation', Katja Grötzner Neves reveals that, throughout its long history, the botanical garden institution has been both a product and an enabler of modernity and the Westphalian nation-state. Initially intertwined with projects of colonialism and empire building, contemporary botanic gardens have reinvented themselves as environmental governance actors. They are now at the forefront of emerging forms of networked transnational governance. Building on social studies of science that reveal the politicization of science as the producer of contingent, high-stakes, and uncertain knowledge, and the concomitant politicization of previously taken-for-granted science-policy interfaces, Neves contends that institutions like botanic gardens have discursively deployed postnormal science and posthuman precepts to justify their growing involvement with biodiversity conservation governance within the Anthropocene.
Book
Cacti in distress: how to enhance ex situ conservation strategies through living collections
Living plant collections play a crucial role in ex situ conservation, but their conservation value hinges on assessment of their composition, data quality and on strategic planning for optimization of the collection that takes into account species diversity, conservation status and allocation of resources. Cactaceae is one of the most threatened plant families globally and has a broad distribution in Brazil, with two of the seven centres of diversity for this group and a total of 276 known species. Climate change could escalate the threat to cacti, potentially placing 90% of species at risk by 2050. We conducted a case study of Cactaceae in the living Cactarium collection of the Rio de Janeiro Botanic Garden, evaluating the diversity of the collection and recommending strategic actions to enhance its conservation value. In 2022, we inventoried all specimens in the collection and cross-referenced them with the institutional specimen registry system, Jabot. The collection contains 156 cacti species that naturally occur in Brazil (57% of the total), including 43 species categorized as threatened on the Brazilian Red List and 57 categorized as threatened on the IUCN Red List. We recommend research to map cacti species that are threatened but not covered by in situ conservation in the country, list the priority species for acquisition by the collection, and make recommendations that will facilitate improved contribution of the Rio de Janeiro Botanic Garden to the conservation of the Brazilian flora.
Journal Article
Visitors’ perception of thermal comfort during extreme heat events at the Royal Botanic Garden Melbourne
Outdoor thermal comfort studies have mainly examined the perception of local residents, and there has been little work on how those conditions are perceived differently by tourists, especially tourists of diverse origins. This issue is important because it will improve the application of thermal indices in predicting the thermal perception of tourists. This study aims to compare the differences in thermal perception and preferences between local and overseas visitors to the Royal Botanic Garden (RBG) in Melbourne during summer. An 8-day survey was conducted in February 2014 at four sites in the garden (n = 2198), including 2 days with maximum temperature exceeding 40 °C. The survey results were compared with data from four weather stations adjacent to the survey locations. One survey location, ‘Fern Gully’, has a misting system and visitors perceived the Fern Gully to be cooler than other survey locations. As the apparent temperature exceeded 32.4 °C, visitors perceived the environment as being ‘warm’ or ‘hot’. At ‘hot’ conditions, 36.8 % of European visitors voted for no change to the thermal conditions, which is considerably higher than the response from Australian visitors (12.2 %) and Chinese visitors (7.5 %). Study results suggest that overseas tourists have different comfort perception and preferences compared to local Australians in hot weather based at least in part on expectations. Understanding the differences in visitors’ thermal perception is important to improve the garden design. It can also lead to better tour planning and marketing to potential visitors from different countries.
Journal Article
Non-Native, Non-Naturalised Plants Suffer Less Herbivory Than Native Plants Across European Botanical Gardens
ABSTRACT
Aim
The enemy release hypothesis states that the invasion success of non‐native species is partly due to their escape from natural enemies, e.g., herbivores. Large‐scale studies of herbivory using multiple species across multiple sites are needed to test the generality of herbivory release in non‐native plants.
Location
Europe.
Methods
We carried out leaf‐herbivory surveys from 2007 to 2021 in 15 botanical gardens ranging in latitude from 47°N (Switzerland) to 63°N (Norway) to investigate how herbivory levels differed between (i) native and non‐native species, and (ii) native and non‐naturalised or naturalised species.
Results
Overall, we found that herbivory levels were lower on non‐native than native species. In addition, we found that non‐naturalised plants suffered less herbivory than natives and that naturalised plants showed similar levels of herbivory to native plants.
Main Conclusions
We find broad support for lower herbivory of non‐native plant species compared to natives. However, the stronger reduction in herbivory for non‐naturalised plants suggests that herbivore release may be transient and less pronounced for naturalised non‐native species that have become abundant and integrated into resident communities. This has implications for the management of naturalised non‐native plants, which are performing well in their non‐native ranges despite suffering comparable herbivory levels to native species.
Journal Article
The New York Botanical Garden
\"In celebration of the Garden's 125th anniversary, this book documents its role as a place of unparalleled beauty in the heart of New York City and an internationally renowned leader in plant research and conservation, as well as science and organic gardening education for children. This revised edition includes more than two hundred stunning new photographs by Larry Lederman, reproductions of rare botanical art from the archival collections, and engaging essays by Garden staff that highlight the expansive growth and development the Garden continues to experience.... Readers will learn how the Garden continues to fulfill its founders' ambitious goals as an iconic museum of plants, stewarding the historic landscape since 1891 and committed to efforts--locally, regionally, nationally, and internationally--to teach humankind about the critical importance of plants for an economically and ecologically sustainable future\"--Dust jacket.
Book
Spatial variability in herbaceous plant phenology is mostly explained by variability in temperature but also by photoperiod and functional traits
Whereas temporal variability of plant phenology in response to climate change has already been well studied, the spatial variability of phenology is not well understood. Given that phenological shifts may affect biotic interactions, there is a need to investigate how the variability in environmental factors relates to the spatial variability in herbaceous species’ phenology by at the same time considering their functional traits to predict their general and species-specific responses to future climate change. In this project, we analysed phenology records of 148 herbaceous species, which were observed for a single year by the PhenObs network in 15 botanical gardens. For each species, we characterised the spatial variability in six different phenological stages across gardens. We used boosted regression trees to link these variabilities in phenology to the variability in environmental parameters (temperature, latitude and local habitat conditions) as well as species traits (seed mass, vegetative height, specific leaf area and temporal niche) hypothesised to be related to phenology variability. We found that spatial variability in the phenology of herbaceous species was mainly driven by the variability in temperature but also photoperiod was an important driving factor for some phenological stages. In addition, we found that early-flowering and less competitive species characterised by small specific leaf area and vegetative height were more variable in their phenology. Our findings contribute to the field of phenology by showing that besides temperature, photoperiod and functional traits are important to be included when spatial variability of herbaceous species is investigated.
Journal Article