Capital in context: Funding US Inland Northwest food hub development before and during COVID-19

This study focuses on how 10 food hubs in the U.S. Inland Northwest resourced their start-up and development before and during the first year of the COVID-19 pandemic. Case studies include coop­erative, government agency, nonprofit, and family-owned food hubs. Because of the prominence of nonmonetary values as drivers in food hub devel­opment, we used a social entrepreneurship frame­work to understand how people, context, and a social value proposition affected access to and use of capital resources. We found that each food hub had a unique mix of capital sources and profita­bility that reflected and shaped who was involved, their mission, and their available resources. All operating food hubs that we studied strengthened and grew their business during the first year of the pandemic. Two federal COVID-19-related pro­grams—the Paycheck Protection Program and the Farmers to Families Food Box Program—played brief but instrumental roles in helping most organi­zations early in the pandemic, enabling several to pivot from heavily impacted markets (such as restaurants and educational institutions) to direct-to-consumer markets and food security efforts. For several, panic buying early in the crisis followed by a consistent large increase in demand fueled organi­zational growth. The food hubs adapted quickly, with some significantly changing their business model and expected trajectory as they weathered the first year of the pandemic, coming out stronger than before.

Trialing geophysical techniques in the identification of open Indigenous sites in Australia: A case study from inland northwest Queensland

The use of geophysical techniques as an aid to archaeological investigations has become common-place, however these methods have only occasionally been applied in Indigenous Australian archaeology. This is despite recognition (and recommendations) since the 1970s that such approaches have the potential to yield positive results in such contexts (e.g. Connah et al. 1976; Stanley 1983; Stanley and Green 1976). Australian archaeologists have perhaps been reluctant to embrace these techniques because of their perceived high cost (both of equipment and specialist staff) and the subtle nature of subsurface Indigenous sites as geophysical targets. Nevertheless, there have been a number of recent applications of these techniques in Australia, particularly in relation to burial and hearth sites. We report the results of a pilot study conducted in northwest Queensland. This study aimed to test the applicability of geophysical methods being routinely employed to locate a variety of open site features (particularly hearths and middens) as part of reconnaissance surveys. While not being entirely successful, this study demonstrated that certain archaeological features can be readily identifi ed using geophysical techniques, though further research and trials should be carried out to refi ne the uses of these techniques to allow their more widespread applicability.

Bee communities in canola are affected by landscape context and farm management

Bees are key pollinators that promote greater yield and seed quality of oilseed crops such as canola. Canola acreage has increased over 1,000% in the past decade in the Pacific Northwest USA, providing a major pulse of sugar-rich nectar and pollen resources that may affect bee health and community structure. However, because canola does not require insect pollination for seed production, few studies have examined the biodiversity of pollinators taking advantage of these resources, or the floral traits of canola that affect pollinators across variable landscapes. Here, we conducted pollinator surveys at canola farms across the inland Northwest region of the USA. We surveyed bee biodiversity and abundance, and assessed how these metrics correlated with landscape context, canola production practices, and floral traits of various canola varieties. We found that bee communities differed between sites and across growing seasons, with sweat bees more abundant later in the season, and mining bees more abundant earlier in the season. We also found that bees were more abundant overall on farms with less floral nectar and with less developed landscape surrounding the sampling area. Bee diversity was greater in spring canola than winter canola, and floral traits were also correlated with differing bee community diversity. This research provides important information for canola growers and land managers and offers a framework for future research in pollinator management in the inland Northwest.

Effects of Fertilization On The Growth Dominance of Inland Northwest Forests of The United States

Large trees have disproportionally large competitive advantage in access to light, which has been proposed to increase growth dominance of large trees (e.g., accounting for a larger proportion of growth than volume of a stand). Tree growth may also be limited by the availability of other resources besides light. Nutrient deficiency, especially of nitrogen, is considered common among temperate forests, including mixed-conifer forests of the Inland Northwest of the United States. Data from a long-term forest nutrition study across four Inland Northwest states were analyzed to evaluate nitrogen × potassium fertilization's effects on growth dominance over an eight-year period following treatment in a region of complex forest vegetation types and site conditions. Our results show that growth dominance varied substantially across similar plots in each fertilization treatment, and its mean values generally were at minuscule magnitudes, negative, and not significantly different from zero. We propose that this lack of a clear pattern in growth dominance was the result of the mixed-species composition where shade-tolerant species remained in lower crown positions, yet their relative growth kept pace with large trees. Limited moisture availability at dry sites may have hampered the development of growth dominance. Growth dominance also was lowered by mortality observed among relatively large trees. The largely negative growth dominance across fertilization treatments indicates that small trees maintained higher relative growth rates than large trees, even if absolute growth and size was concentrated in large trees. In the case fertilization does improve stand growth, a significant part of this improved growth will be lost in density-dependent mortality over time if not captured through biomass removals.

The Evolution of Smoking and Intoxicant Plant Use in Ancient Northwestern North America

Smoking pipes discovered in archaeological contexts demonstrate that Indigenous peoples of the Pacific Northwest of North America have practiced smoking for over 4,500 years. Archaeometry and ancient residue metabolomics provide evidence for the association of particular plants with these artifacts. In this article, we synthesize recent research on ancient smoking and present current knowledge on the spatiotemporal distribution of smoking in the past. The presence of stone smoking pipes in the archaeological record is paired with our understanding of past plant use based on chemical residue analyses to create a picture of precontact smoking practices. Archaeological pipe data demonstrate that smoking was a widely distributed practice in the inland Northwest over the past several thousand years, but not on the coast. Distributional data—including positive and negative evidence from chemical residue studies—show that tobacco was an important smoke plant in the region as early as around 1,410 years ago and as far north as the mid-Columbia region. Ancient residue metabolomics contributes to a richer understanding of past use of specific plants through the identification of tobacco species and other indigenous plants, including Rhus glabra, Cornus sericia, and Salvia sp., as contributing to the chemical residues in ancient pipes.

Aleiodes (Hymenoptera, Braconidae, Rogadinae) diversity in Washington U.S.A. including three new species

Aleiodes Wesmael is a large cosmopolitan genus of endoparasitoid wasps that is evidently especially speciose in the Western Hemisphere based on numbers of described species. As with most diverse insect groups, relatively little is known about Aleiodes species diversity and biology. Here I summarize what is known about Aleiodes diversity in Washington State and contiguous Inland Northwest states and province, and I report three new species recently collected by malaise trap sampling for Aleiodes in Okanogan County, WA: Aleiodes khalafi, Aleiodes okanoganensis, and Aleiodes quasiburrus. Given the number of new species (three) and first records of previously described species (two) in Washington elucidated by this study, there is evidently much work to do to reach a fair estimate of Aleiodes species diversity in the Inland Pacific Northwest.

Species, Climatypes, Climate Change, and Forest Health: A Conversion of Science to Practice for Inland Northwest (USA) Forests

Research Highlights: This paper integrates disparate research results pertaining to climate change impacts to 12 co-occurring forest tree species and their climatypes such that management options for the ecosystem as a whole become discernible. Background and Objectives: The ecosystem under analysis is the Thuja-Tsuga forest ecosystem, occupying ca. 121,500 km2 in a largely mountainous setting in the interior northwest, USA. Our goal is to present land management options tied directly to climate-change in a straightforward framework for both the current and future generations. Materials and Methods: By merging synecological and genecological concepts in a climatic framework, we simplify complex interactions in a manner that relates directly to climate change impacts. Species and climatype distributions are redefined in terms of mean annual temperature and elevation of forested landscapes. Results: For each 2 °C increase in temperature, plant associations should shift upwards ca. 400 m, provided precipitation remains at or near contemporary levels, which, for this ecosystem, vary between 300 mm and 1450 mm. Management guidelines are developed for (a) selecting climatypes of the species suited to the climate at the leading edge of the migration front, (b) anticipating decline at the trailing edge, and (c) converting climatypes in areas where species should persist. Conclusions: Our results can provide robust strategies for adapting forest management to the effects of climate change, but their effectiveness is dependent on the implementation of global warming mitigation actions.