Your search keyword '"prairies"' showing total 3,146 results

1. Virulence of Puccinia coronata var avenae f. sp. avenae (oat crown rust) in Canada during 2016 to 2020 and comparison of extensive vs intensive sampling methods.

Author

Menzies, James G, Xue, Allen, Deceuninck, Sharon, and Klein-Gebbinck, Henry

Subjects

SAMPLING methods, RUST fungi, PUCCINIA, PHENOTYPES, PRAIRIES, OATS

Abstract

Copyright of Canadian Journal of Plant Pathology is the property of Taylor & Francis Ltd and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

2. Trap cropping for insect pests in the Canadian Prairies: a review and a case study.

Author

Cárcamo, H., Tansey, J., Beres, B., Catton, H. A., Tidemann, B., Reid, P., and Vankosky, M. A.

Abstract

The Canadian Prairies are one of the major agricultural regions of the world in terms of cereal, oilseed and pulse crop production. With few exceptions, major insect pests like grasshoppers, flea beetles, Lygus bugs, wireworms and pea leaf weevils are controlled with insecticides. Wheat stem sawfly is managed through host plant resistance and endemic natural enemies, whereas cereal leaf beetle is managed through classical biological control. Large farms and short growing seasons in the region present logistical challenges to adopt time intensive pest management systems such as trap crops. Therefore, there is no adoption of trap crops even though some research has demonstrated their potential. In this article we present a brief overview of the pest status and management, and we summarize research on trap crops in the Prairies Ecozone and adjacent ecoregions. We conclude the review with some innovative research ideas to make trap cropping a more appealing pest management system in our quest to reduce dependency on chemical insecticides and increase the environmental resilience of Canadian agroecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

3. The scientific journey to eradicate smuts on the prairies.

Author

Aboukhaddour, Reem, McCallum, Brent D., Menzies, Jim, and Hiebert, Colin

Subjects

SEED crops, SEED treatment, WHEAT, PRAIRIES, BIOLOGY

Abstract

The cultivation of wheat in North America represents a relatively recent endeavour, spanning a mere 150 years. This relatively brief period of its recent cultivation has allowed the opportunity to document the threats and diseases farmers had to face from the start. In this minireview, our primary objective is to provide a detailed exploration of the historical context on how we end up effectively managing what was once among the most destructive and hard to manage diseases affecting wheat, namely, common bunt (covered smut). This review delves into the early research efforts dedicated to understanding the biology of the causal pathogens and developing effective management approaches. These efforts encompass a wide spectrum of potential methods, ranging from seed treatments to cropping practices, and the development of genetic resistance. Throughout this exploration, we will also spotlight the remarkable scientific success story that has unfolded within the Canadian context. In essence, this review aims to provide a scientific examination of the history, challenges and innovative approaches associated with mitigating the impact of bunt pathogens on wheat cultivation in North America, and future challenges. [ABSTRACT FROM AUTHOR]

Published

2024

4. Quantifying seed rain patterns in a remnant and a chronosequence of restored tallgrass prairies in north central Missouri.

Author

Wynne, K. Carter, Parker‐Smith, Maya J., Murdock, Erica M., and Sullivan, Lauren L.

Subjects

COMPOSITION of seeds, BIOTIC communities, RESTORATION ecology, PLANT ecology, GRASSLAND plants, PRAIRIES, GRASSLANDS

Abstract

Seed rain is an influential process related to plant community diversity, composition and regeneration. However, knowledge of seed rain patterns is limited to those observed in forests and late‐assembling grasslands, which might not reflect early assembling communities such as newly restored grasslands. Resolving this gap in our understanding provides further insight into the role of seed dispersal.Here, we measured seed rain in a remnant tallgrass prairie, which was the site of the foundational grassland seed rain study in 1978, and a nearby chronosequence of tallgrass prairie restorations. We sought to determine how the quantity, seed mass traits, timing, diversity and composition of seed rain changed (1) long‐term and (2) during community assembly. To do so, we deployed artificial turf grass seed traps into 2‐year‐old, 5–6‐year‐old and 15‐year‐old restored prairies and the remnant prairie, replacing traps every 2 weeks from May to December 2019.We captured over twice the density and richness of seed rain in the remnant prairie in 2019 compared to 1978. We also found that seed rain patterns changed as prairies aged, with each prairie possessing a distinct community of dispersing species. Significantly more seeds, seed biomass, and species were captured in the youngest restored prairie. However, seed mass traits were similar in all prairies. Except for composition, all other seed rain metrics in the oldest restoration were eventually comparable to the remnant prairie.Synthesis and applications: Our results revealed that grasslands, notably young prairies, produce larger quantities of seed rain than previously known (124,806 seeds m−2 year−1, 97.24 g m−2 year−1), and seed input in all sampled prairies far exceeded restoration broadcast seeding densities. We further found that decreases in seed rain quantity across the chronosequence did not correspond with increases in seed mass, suggesting a lack of trade‐offs between these metrics. Furthermore, tallgrass prairie restorations have not replicated the composition of seed rain seen in remnant systems. Increasing restoration seeding rates of desirable species may be needed to meet composition goals since current rates may not compete with the propagule pressure of undesirable species found in newly restored prairies. [ABSTRACT FROM AUTHOR]

Published

2024

5. The impact of location, habitat, and climate on morphological variation in the Western Deermouse (Peromyscus sonoriensis: Rodentia).

Author

Bingham-Byrne, Rebecca Michelle, George, Darren, and Buttler, Bruce

Subjects

TEMPERATURE control, COLD (Temperature), CLIMATE change, RODENTS, SKULL, PRAIRIES

Abstract

Peromyscus sonoriensis is a widespread species ranging from southern Texas to the Yukon, from the Mississippi to the Pacific. Because of this extensive range, there are substantial differences in morphology due to variation in temperature, precipitation, and habitat. We used 2 data sets (n = 4,840 and n = 20,175) to study morphological differences of their crania and appendages. Consistent with Allen's rule (shorter appendages with colder temperature), both data sets show a strong, positive, correlation between tail length and the average January temperature. However, there was an equally strong, but negative, correlation between tail length and average July temperature. We observed similar results for feet and crania. Ear length had a significant negative correlation with July average temperature but no correlation with January average temperature. When we controlled for temperature, cranial and appendage length increased with latitude, which was opposite of what we expected. Furthermore, longitude had a strong impact as mice trapped further west had longer appendages. When divided into habitats, forest deer mice are more likely than prairie or desert deer mice to demonstrate morphological responses to differences in climate, location, and year trapped. Our results show that P. sonoriensis exhibit notable morphological variation linked to location, habitat, and climate. [ABSTRACT FROM AUTHOR]

Published

2024

6. Ground-dwelling invertebrate community responses to bison and prescribed fire management in tallgrass prairies.

Author

Alaniz, Maricela N., Padilla, Samantha, Hosler, Sheryl C., Jones, Holly P., and Barber, Nicholas A.

Subjects

INVERTEBRATE communities, PRESCRIBED burning, BIOTIC communities, HEMIPTERA, DUNG beetles, PRAIRIES

Abstract

Disturbances are drivers of ecosystem function and play important roles in shaping ecological communities. Prescribed fire and grazing disturbances are common management tools in restored and remnant grasslands. The effects of these management actions on plant communities and on vegetation-dwelling invertebrates are generally well studied. However, less is known about their effects on ground-dwelling invertebrates, which can contribute to important ecosystem processes like herbivory, predation, and decomposition. We examined bison grazing and prescribed fire effects on abundance, diversity, and community composition of ground-dwelling invertebrate groups in restored tallgrass prairies using pitfall trap samples. Surprisingly, invertebrate Shannon diversity decreased when bison were present and was unaffected by fire or the fire–bison interaction. Bison, and to a lesser extent fire, also shifted community composition, increasing abundance of ground, rove, and dung beetles, as well as orthopterans and spiders. Prescribed fire generally increased beetles but caused declines in several ecologically diverse invertebrate groups, including harvestmen and true bugs, although these reduced abundances did not lead to differences in overall diversity. Bison presence may amplify the abundances of dominant groups, such as ground and dung beetles and orthopterans, that outcompete other invertebrates and reduce diversity. Implications for insect conservation: Prescribed fire and grazing by bison change ground-dwelling invertebrate community composition, but bison presence did not reduce the abundance of most taxonomic groups. Fire may have short-term negative impacts on some invertebrate groups that promote desirable invertebrate-driven ecosystem processes, but these effects are likely short-lived, and the resulting environmental mosaic under bison and fire management could support biodiversity over the long-term. [ABSTRACT FROM AUTHOR]

Published

2024

7. AAC Lariat barley.

Author

Badea, A., Legge, W.G., Tucker, J. R., Fetch Jr., T.G., Menzies, J.G., Wang, X., Turkington, T.K., Khanal, R., and Blackwell, B.A.

Subjects

FARMERS, PRAIRIES, RECORDING & registration, BARLEY

Abstract

AAC Lariat is a hulled, two-row, spring, general purpose barley (Hordeum vulgare L.) cultivar widely adapted to western Canada. It was developed from the cross AAC Synergy/TR09398 made in 2010 and it was evaluated in the Western Cooperative Two-row Barley Registration Test (2019–2020) before being registered in 2022. With its high yield, good standability, and disease resistance, AAC Lariat will offer a good production choice for feed growers across the Prairies. [ABSTRACT FROM AUTHOR]

Published

2024

8. Fears and Fences: Social and Material Barriers to Plains Bison on the Canadian Prairies.

Author

Hisey, Forrest, Heppner, Melissa, and Olive, Andrea

Subjects

GRASSLAND conservation, SOCIAL acceptance, BISON, ENVIRONMENTAL policy, ENVIRONMENTAL protection, PRAIRIES

Abstract

Plains Bison once had the largest population and range of any terrestrial herbivore in North America. Bison now occupy less than 2% of their historic range, mostly behind fences of state-run and private organizations. In 2014, Indigenous groups across North America signed The Buffalo Treaty, calling for bison rewilding. This paper examines barriers to rewilding on Canada's prairies in the provinces of Manitoba, Saskatchewan, and Alberta. Through interviews we asked government and NGO representatives what prevents bison reintroduction and rewilding. Our results suggest that the main barriers are social acceptance and material resources. These findings support previous research in the United States and Europe and provides a foundation for future research that could include other actors, such as landowners, Indigenous organizations, and industry representatives. [ABSTRACT FROM AUTHOR]

Published

2024

9. LOUISIANA COASTAL PRAIRIE VASCULAR FLORA CHECKLIST WITH COEFFICIENTS OF CONSERVATISM FOR FLORISTIC QUALITY ASSESSMENTS.

Author

Early, Brian Sean, Mathey, Chase L., and Doffitt, Chris

Subjects

FLORISTIC quality assessment, COASTAL plants, ECOLOGICAL regions, PRAIRIES, BOTANY

Abstract

Copyright of Journal of the Botanical Research Institute of Texas is the property of Journal of the Botanical Research Institute of Texas and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

10. How often are ecosystems top‐down controlled? Experiments in grassland, grasshopper, and bird systems over time and space.

Author

Belovsky, Gary E. and Slade, Jennifer B.

Subjects

PLANT biomass, GRASSHOPPERS, DISCRIMINANT analysis, GROUND cover plants, DECISION trees, PRAIRIES

Abstract

Ecosystems are frequently considered to be controlled by predation (top‐down). Experiments examined this in four bird/spider/grasshopper/prairie habitats over 34 years, employing in each habitat three 100 m2 bird exclosures and controls (121 habitat/year cases) where plant, grasshopper, and spider abundances were measured. Top‐down control (plants decrease and grasshoppers increase with bird exclusion) was observed in only 13.2% of cases, while plants increased and grasshoppers decreased in 33.1% of cases, plants decreased and grasshoppers decreased in 25.6% of cases, and plants increased and grasshoppers increased in 28.1% of cases. Therefore, top‐down control was not common and system responses were not constant, but varied among sites, years, and directionally over time with climate change. This diversity of responses is expected given the variety of underlying processes in complex ecosystems. For example, decision tree/discriminant analysis found that plant decreases and increases with bird exclusion were correctly identified in 78.3% of cases by grasshopper hatchling abundance, plant cover, and annual net primary production (ANPP), while grasshopper decreases and increases with bird exclusion were correctly identified in 76.7% of cases by edible plant biomass per grasshopper hatchling, grasshopper hatchling abundance, and large grasshopper abundance. Analysis of other system‐wide terrestrial trophic experiments indicates that the variety of responses observed by us over time and space may be common so that system‐wide trophic responses may, in general, be more variable than either top‐down or bottom‐up as often considered. [ABSTRACT FROM AUTHOR]

Published

2024

11. Effects of Manipulated Rainfall and Intraspecific Variation Within Dominant Species on Community Assembly: Insights From a Long‐Term Grassland Restoration Experiment.

Author

Ren, Zhe, Baer, Sara G., Johnson, Loretta C., Galliart, Matthew B., and Gibson, David J.

Subjects

BIOTIC communities, GRASSLAND restoration, NATIVE species, SPECIES diversity, FARMS, GRASSLANDS, PRAIRIES

Abstract

Grasslands converted to agricultural land use can be reestablished by sowing seeds of native species and temporal dynamics of diversity under altered climate can inform community assembly in the context of global change. We quantified three aspects of diversity (species richness, phylogenetic diversity, and functional diversity) in restored prairie plots sown with different ecotypes of two dominant grass species and manipulated rainfall to understand the relative importance of abiotic filtering and population source of dominant species on community assembly. We also evaluated the contributions of intra‐ and interspecific variations in functional traits across plots sown with different ecotypes of dominant species. Since the fourth year of community establishment, species richness decreased over time as dominant species gradually established. Phylogenetic and functional diversity was unaffected by the ecotypic sources of dominant species during restoration. Experimental drought did not affect species richness, phylogenetic, or functional diversity. Community structure in the grasslands was mainly shaped by intraspecific, within‐population variation in the dominant species rather than by differences in traits among species. Our results showed that intraspecific biotic interactions contribute more than environmental filtering to community assembly in a tallgrass‐dominated prairie ecosystem. [ABSTRACT FROM AUTHOR]

Published

2024

12. A new Early Pleistocene North American prairie vole from the Java local fauna of South Dakota, USA.

Author

Martin, Robert A. and Fox, Nathaniel S.

Subjects

PLEISTOCENE Epoch, VOLES, PRAIRIES, TRIANGLES, ENAMEL & enameling

Abstract

Previously known as Allophaiomys cf pliocaenicus, a new species of Pedomys is described from the early Pleistocene Java local fauna of South Dakota. Biostratigraphic correlations place the fauna between 2.0 and 1.29 Ma. Pedomys javaensis n. sp. is characterised by a first lower molar (m1) with three closed triangles (T) and a simple anteroconid (ACD) with a rare development of buccal re-entrant angle 5 defining an incipient T7. Connections between T5 and the ACD and T4–5 are broad, and the enamel is, on average, slightly positively differentiated. The M3 is simple, with distinct T5 and a relatively deep, posteriorly directed third lingual re-entrant angle. Twenty-two per cent of the Java m1s share morphological characters with Pedomys, prairie voles, suggesting that Pedomys originated from an early Pleistocene North American Allophaiomys-like ancestor. In the calculated ratios of m1 measurements, the new species lies morphologically between the Old World Allophaiomys deucalion and A. pliocaenicus. [ABSTRACT FROM AUTHOR]

Published

2024

13. HOWARD BURR -- MASTER OF THE PRAIRIE SCHOOL.

Author

Nash, Jon R.

Subjects

ARCHITECTS, ARCHITECTURAL design, ARCHITECTURE, PRAIRIES

Published

2025

14. WHITE-HOT WINTER: Seasonal prescribed burns help Wisconsin's marshes and wetlands.

Author

WITECHA, MICHELE

Subjects

PRESCRIBED burning, PERSONNEL management, HABITATS, SPRING, WEATHER, PRAIRIES, WILDFIRES, WILD flowers

Published

2024

15. AAC Stockton barley.

Author

Badea, A., Legge, W.G., Tucker, J.R., Fetch Jr., T.G., Menzies, J.G., Wang, X., Turkington, T.K, Khanal, R., MacEachern, D., and Blackwell, B.A.

Subjects

FARMERS, GRAIN yields, PRAIRIES, FUSARIUM, RECORDING & registration

Abstract

AAC Stockton is a hulled two-row spring general purpose barley (Hordeum vulgare L.) cultivar widely adapted to western Canada. It was developed from the cross TR11219/CDC Kindersley made in 2012, and it was evaluated in the Western Cooperative Two-row Barley Registration Test (2020–2021) before being registered in 2023. AAC Stockton will offer a good production choice for barley growers across the Prairies due to its grain yield potential, lodging resistance, and improved Fusarium head blight resistance. [ABSTRACT FROM AUTHOR]

Published

2025

16. AASP-TPS Medal for Scientific Excellence to Dr. Robert A. Fensome: AASP – The Palynological Society bestows upon Dr. Robert A. Fensome the AASP-TPS Medal for Scientific Excellence for outstanding research on dinoflagellate cyst taxonomy, biostratigraphy, evolution and geological outreach

Author

Gravendyck, Julia and Correia, Vânia

Subjects

SCIENTIFIC knowledge, SCIENTIFIC communication, PETROLEUM geology, DINOFLAGELLATE cysts, FOSSIL collection, PRAIRIES

Abstract

Dr. Robert A. Fensome, a research scientist with the Geological Survey of Canada - Atlantic, has been awarded the AASP-TPS Medal for Scientific Excellence for his exceptional work in dinoflagellate cyst taxonomy. His career began in England, where he developed a passion for geology and palaeontology, leading him to study palynology under the mentorship of William A. S. Sarjeant. Throughout his 40-year tenure, Dr. Fensome has made significant contributions to the field of palynology, particularly in the study of Mesozoic and Cenozoic dinoflagellate cysts, and has been actively involved in various scientific committees and outreach activities. His dedication to advancing scientific knowledge and nurturing the next generation of researchers has established him as a prominent figure in the field of palynology. [Extracted from the article]

Published

2025

17. Biodiversity measures of a grassland plant-pollinator community are resilient to the introduction of honey bees (Apis mellifera).

Author

Worthy, Sydney H., Acorn, John H., and Frost, Carol M.

Subjects

INSECT pollinators, HONEYBEES, SPECIES diversity, POLLINATION by bees, INSECT diversity, WILD plants, BEE colonies, PRAIRIES

Abstract

The prairies of Canada support a diversity of insect pollinators that contribute pollination services to flowering crops and wild plants. Habitat loss and use of managed pollinators has increased conservation concerns for wild pollinators, as mounting evidence suggests that honey bees (Apis mellifera) may reduce their diversity and abundance. Plant-pollinator community analyses often omit non-bee pollinators, which can be valuable contributors to pollination services. Here, we experimentally introduced honey bees to examine how their abundance affects the species richness, diversity, abundance, species composition, interaction richness, and interaction diversity of all wild pollinators, and of four higher taxa separately. We identified all insect pollinators and analyzed how honey bee abundance affected the above biodiversity metrics, controlling for flower abundance and flower species richness. Even with high honey bee densities, there was no change to any of these variables, except that beetle species diversity increased. All other taxa had no significant relationship to honey bee abundance. Considering the widespread use of managed honey bees, the effect they have on wild pollinators should be firmly established. Our results suggest that honey bees have little to no short-term impact on the wild pollinator community or its interactions with plants in this native grassland. [ABSTRACT FROM AUTHOR]

Published

2024

18. C17-833 camelina.

Author

Eynck, C., Zatylny, A.M., Klein-Gebbinck, H.W., and Falk, K.C.

Subjects

CAMELINA, PLANT hybridization, OILSEEDS, GERMPLASM, PRAIRIES

Abstract

Camelina (Camelina sativa) elite germplasm C17-833 was developed at the Agriculture and Agri-Food Canada Saskatoon Research and Development Centre. It was developed through hybridization of camelina cultivar AAC 10CS0048 and F4 line 11CS0231-24-10 and subsequent pedigree selection. C17-833 yields significantly higher (114%) than the check cultivar AAC 10CS0048. It also has significantly higher seed oil content (42.6% vs. 41.9%) and significantly larger seeds (126%). C17-833 has very good resistance to downy mildew disease caused by Hyalonospora camelinae and is adapted to all soil zones of the Canadian Prairies. [ABSTRACT FROM AUTHOR]

Published

2024

19. Towards a dynamic effective drainage area map for the Canadian Prairie: Sensitivity of contributing area to wetland storage capacity.

Author

Bacsu, Stephanie and Spence, Christopher

Subjects

WATERSHEDS, STREAMFLOW, PRAIRIES, RUNOFF, EXTRAPOLATION, WETLANDS

Abstract

Copyright of Canadian Water Resources Journal / Revue Canadienne des Ressources Hydriques is the property of Taylor & Francis Ltd and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

20. Editors' Introduction.

Author

Celestin, Roger, Durand, Alain-Philippe, and Provencher, Denis M.

Subjects

PRAIRIES, DESERTS, NATURE

Abstract

An introduction is presented in which the editor discusses articles within the issue on topics including the prairie as a kind of Deleuzian espace lisse, Western representations of nature and the romantic notion of the desert, and the transmission of the Algerian immigration's memory in France.

Published

2024

21. Heterogeneity promotes resilience in restored prairie: Implications for the environmental heterogeneity hypothesis.

Author

Wojciechowski, Ashley A., Blair, John M., Collins, Scott L., and Baer, Sara G.

Subjects

GRASSLAND restoration, RESTORATION ecology, SOIL productivity, PRAIRIES, DROUGHTS

Abstract

Enhancing resilience in formerly degraded ecosystems is an important goal of restoration ecology. However, evidence for the recovery of resilience and its underlying mechanisms require long‐term experiments and comparison with reference ecosystems. We used data from an experimental prairie restoration that featured long‐term soil heterogeneity manipulations and data from two long‐term experiments located in a comparable remnant (reference) prairie to (1) quantify the recovery of ecosystem functioning (i.e., productivity) relative to remnant prairie, (2) compare the resilience of restored and remnant prairies to a natural drought, and (3) test whether soil heterogeneity enhances resilience of restored prairie. We compared sensitivity and legacy effects between prairie types (remnant and restored) and among four prairie sites that included two remnant prairie sites and prairie restored under homogeneous and heterogeneous soil conditions. We measured sensitivity and resilience as the proportional change in aboveground net primary productivity (ANPP) during and following drought (sensitivity and legacy effects, respectively) relative to average ANPP based on 4 pre‐drought years (2014–2017). In nondrought years, total ANPP was similar between remnant and restored prairie, but remnant prairie had higher grass productivity and lower forb productivity compared with restored prairie. These ANPP patterns generally persisted during drought. The sensitivity of total ANPP to drought was similar between restored and remnant prairie, but grasses in the restored prairie were more sensitive to drought. Post‐drought legacy effects were more positive in the restored prairie, and we attributed this to the more positive and less variable legacy response of forb ANPP in the restored prairie, especially in the heterogeneous soil treatment. Our results suggest that productivity recovers in restored prairie and exhibits similar sensitivity to drought as in remnant prairie. Furthermore, creating heterogeneity promotes forb productivity and enhances restored prairie resilience to drought. [ABSTRACT FROM AUTHOR]

Published

2024

22. Longevity of hymenopteran parasitoids in natural versus agricultural habitats and implications for biological control.

Author

Kishinevsky, Miriam and Ives, Anthony R.

Subjects

BIOLOGICAL pest control agents, AGRICULTURE, FOOD chains, DEATH rate, WATER testing

Abstract

Agricultural habitats are frequently disturbed, and disturbances could have major effects on species in upper trophic levels such as hymenopteran parasitoids that are important for biological control. A strategy for conservation biological control is to provide a diversified agricultural landscape which increases the availability of resources such as sugar required by parasitoid biological control agents. Here, we ask whether parasitoids occurring in agriculture benefit from sugar resources more or less than parasitoids occurring in natural habitats surrounding agricultural fields. We collected parasitoids from agricultural alfalfa fields, field margins, and natural prairies, and in the lab we randomly divided them into two treatments: half were given a constant supply of a sugar source to test their residual lifespan, and half were given neither sugar nor water to test their hardiness. Collected individuals were monitored daily and their day of death recorded. Parasitoids receiving a sugar source lived substantially longer than those without. Parasitoids collected in prairies lived longer than those from alfalfa fields in both the residual lifespan and hardiness treatments, with parasitoids from field margins being intermediate between them. Furthermore, the benefits of a sugar source to increase longevity was lower for parasitoids collected in agriculture than in natural habitats. This suggests that, even though parasitoid biological control agents benefit from sugar resources, their short lifespans make the benefit of sugar resources small compared to parasitoids that occur in natural habitats and have longer lifespans, and are adapted to consistent sugar sources. [ABSTRACT FROM AUTHOR]

Published

2024

23. Disease resistance gene count increases with rainfall in Silphium integrifolium.

Author

Keepers, Kyle, Peterson, Kelsey, Raduski, Andrew, Turner, Kathryn M., Van Tassel, David, Smith, Kevin, Harkess, Alex, Bever, James D., and Brandvain, Yaniv

Subjects

GENE libraries, COMMON sunflower, PLANT genes, PHYTOPATHOGENIC microorganisms, NATURAL immunity

Abstract

Intracellular plant defense against pathogens is mediated by a class of disease resistance genes known as NB‐LRRs or NLRs (R genes). Many of the diseases these genes protect against are more prevalent in regions of higher rainfall, which provide better growth conditions for the pathogens. As such, we expect a higher selective pressure for the maintenance and proliferation of R genes in plants adapted to wetter conditions. In this study, we enriched libraries for R genes using RenSeq from baits primarily developed from the common sunflower (Helianthus annuus) reference genome. We sequenced the R gene libraries of Silphium integrifolium Michx, a perennial relative of sunflower, from 12 prairie remnants across a rainfall gradient in the Central Plains of the United States, with both Illumina short‐read (n = 99) and PacBio long‐read (n = 10) approaches. We found a positive relationship between the mean effective annual precipitation of a plant's source prairie remnant and the number of R genes in its genome, consistent with intensity of plant pathogen coevolution increasing with precipitation. We show that RenSeq can be applied to the study of ecological hypotheses in non‐model relatives of model organisms. [ABSTRACT FROM AUTHOR]

Published

2024

24. An intellectual gap in root research on major crops of the Canadian Prairies.

Author

Gorim, Linda Yuya

Subjects

EVIDENCE gaps, PRAIRIES, POTTING soils, CARBON sequestration, ROOT diseases, PLANT growing media, NUTRIENT uptake

Abstract

Prairie cropping systems face several challenges, including high input costs and climate change. Research to address these challenges has focused on above-ground agronomic parameters while completely ignoring the role roots play below ground. The objectives of this review study are to (i) synthesize past root studies carried out in the Canadian Prairies, (ii) provide a context for prairie root research, and (iii) identify gaps for future research. This review reports that root architectural traits of major crops have been assessed under field and greenhouse conditions in soil, artificial media, and a mixture of both soil and media, mostly under natural/well-watered and drought conditions. Several root traits have been compared for major crops grown with respect to moisture levels and nutrient uptake. A dearth of research exists on the complex relationship between root traits, soil microbiome, nutrient uptake, carbon sequestration, and photosynthetic efficiency. No studies were found relating root traits, fertilizer placement, and nitrogen and water use efficiencies, carbon sequestration, soil microbiome dynamics, and common root diseases. This review also reports that more research and funding are needed to exploit the benefits that root research will bring to further sustainability goals and ensure food security in the Canadian Prairies. [ABSTRACT FROM AUTHOR]

Published

2024

25. A Comprehensive Analysis of Skin Cancer Concerns and Protective Practices in Manitoba, Canada, Highlights Lack of Skin Cancer Awareness and Predominance of High-Risk Sun Exposure Behaviors.

Author

Lagacé, François, Conte, Santina, Mija, Lorena A., Moustaqim-Barrette, Amina, Mahmood, Farhan, LeBeau, Jonathan, McKenna, Alyson, Maazi, Mahan, Hanna, Johnny, Kelly, Alexandra Sarah Victoria, Rahme, Elham, Hrubeniuk, Travis J., Peláez, Sandra, and Litvinov, Ivan V.

Subjects

HEALTH literacy, SUNSHINE, CROSS-sectional method, RISK-taking behavior, SKIN tumors, HEALTH attitudes, RESEARCH funding, RECREATION, WORRY, QUESTIONNAIRES, LOGISTIC regression analysis, SUNBURN, SUNSCREENS (Cosmetics), SEX distribution, ULTRAVIOLET radiation, AGE distribution, ECONOMIC status, DESCRIPTIVE statistics, ODDS ratio, HEALTH behavior, PUBLIC health, CUTANEOUS malignant melanoma, EDUCATIONAL attainment, DISEASE risk factors

Abstract

Simple Summary: Skin cancer rates in Canada are rising quickly, with about one-third of Canadians likely to be affected in their lifetime. Despite this alarming trend, government actions to reduce skin cancer are limited. Our study, conducted in Manitoba, found that many residents have risky sun exposure habits and lack awareness about skin cancer. Over 65% reported a history of sunburns, more than half had used tanning beds, and a large majority recently tanned for pleasure. Misconceptions are common, with over 50% believing that tans are healthy or a sign of beauty. Moreover, sun protection practices are inadequate, with less than 60% using protective clothing and under 50% using sunscreen. These findings highlight the need for targeted public health campaigns to improve awareness and promote better sun protection behaviors to prevent future skin cancers in Manitoba. The rapidly increasing skin cancer rates in Canada are alarming, with current data estimating that 1/3 of Canadians will be affected in their lifetime. Thus, deeper understanding of high-risk sun exposure behaviors is needed to help counter this trend. Only limited action has been taken by federal/provincial governments to reduce skin cancer incidence. A cross-sectional survey study was conducted in Manitoba, with frequency counts, means, and percentages used to encapsulate responses. Age- and gender-adjusted odds ratios were calculated using logistic regression analyses. Our study identified worrying inadequacies in sun protective behaviors and attitudes, with the threat of such high-risk behaviors amplified by a lack of skin cancer awareness. Alarming elements were noted in participants' sun exposure history (>65% reported a history of sunburns, >50% previously used a tanning bed, and >75% recently tanned for pleasure), beliefs and attitudes (>50% believe that they look better/healthier with a tan, and >40% believe that having a base tan is protective against further sun damage), and sun protection efforts (sun protective clothing was used <60% of the time, sunscreen was used by <50%, and there was a lack of knowledge about sunscreen characteristics in ~30% of respondents), in addition to significant differences being established between demographic subgroups (based on gender, age, skin phototype, income, and education attained). This study provides worrisome insight onto the grim landscape of sun protective behaviors and attitudes in Manitoba, which will inevitably translate into higher skin cancer rates and should serve as a call to action to promote targeted public health messaging in this jurisdiction and beyond. [ABSTRACT FROM AUTHOR]

Published

2024

26. Contrasting late season pest insect abundance in non‐crop vegetation areas and nearby canola fields in the Canadian Prairies.

Author

Innes, Rebecca, Neame, Tobyn, and Galpern, Paul

Subjects

INSECT pests, CANOLA, AGRICULTURE, PRAIRIES, CROP losses, GRASSLAND soils

Abstract

Non‐crop vegetation areas in agricultural landscapes are vital for maintaining biodiversity. However, they potentially host pest insects, which can cause economic loss in crop fields.Some insect species have been found to spill into crops from these areas, but this varies depending on species, landscape composition and the time of the season.To determine if five common pest insects of canola crops were spilling into fields during the late growing season, we collected samples at various distances from non‐crop areas, in a part of the Canadian Prairies (Alberta, Canada) where this crop is widely grown.Sampling occurred at 15 sites in each of 10 fields (N = 150 sites). We modelled changes in pest abundance over distance from the non‐crop areas and contrasted the abundance of each taxon in the crop and non‐crop areas.Only leafhoppers (Hemiptera: Cicadellidae) demonstrated a declining gradient in abundance that is consistent with spillover from non‐crop vegetation areas into the canola fields. Weevils were found to have significantly higher abundance in the non‐crop areas, indicating a relationship between this taxon and the non‐crop area in the late season, but there was no decline in abundance, which might indicate spillover occurring. All taxa demonstrated spatial differences in abundance among fields.This study found limited evidence that the pests are spilling over from non‐crop vegetation into canola crops during the late season. Therefore, movement of pests from non‐crop vegetation areas at this time is unlikely to be a driver of pest pressure for this economically important crop. [ABSTRACT FROM AUTHOR]

Published

2024

27. Protecting the Prairie.

Author

SMARSH, SARAH

Subjects

PRAIRIES, BULLDOZERS, CHRISTMAS, RANCHERS, TREES

Published

2024

28. The Seine’s Renaissance.

Author

NICKLIN, MARY WINSTON

Subjects

FREIGHT & freightage, PRAIRIES, OLYMPIC Games, URBAN renewal, WATER treatment plants, EXTREME weather

Abstract

The article discusses the advancements in transcatheter mitral valve therapies. Topics discussed include Abbott's MitraClip and Tendyne systems for mitral valve repair and replacement, the Pascal System and CardioBand by Edwards Lifesciences as alternatives, and the implications of these innovations for patients with mitral regurgitation.

Published

2024

29. Inequalities in health-related quality of life and functional health of an aging population: A Canadian community perspective.

Author

Singh, Sarah, Goodwin, Shane, Zhong, Shiran, Avan, Abolfazl, Rogers, Kem, Hachinski, Vladimir, and Frisbee, Stephanie

Subjects

OLDER people, PRAIRIES, QUALITY of life, CANADIANS, POPULATION aging, HEALTH equity, HEALTH of older people

Abstract

Background: Reducing health inequalities among older adults is crucial to ensuring healthy aging is within reach for all. The current study provides a timely update on demographic- and geographic-related inequalities in healthy aging among older adults residing in Canadian communities. Methods: Data was extracted from the Canadian Health Survey on Seniors [2019–2020] for ~6 million adults aged 65 years and older residing in 10 provinces of Canada. Healthy aging was defined by two indices: 1] health-related quality of life and 2] functional health. Poisson regression models and spatial mapping were used to demonstrate inequalities among age, race, and sex categories, and health regions. Results: Approximately 90.3% of individuals reported less than perfect quality of life and 18.8% reported less than perfect functional health. The prevalence of less than perfect quality of life was higher for females [PR 1.14, 95% CI;1.02–1.29] and for older adults aged ≥80 years as compared to males and older adults aged ≤79 years [PR 1.66, 95% CI;1.49–1.85]. Similarly, the prevalence of less than perfect functional health was higher for females [PR 1.58, 95% CI;1.32–1.89] and for older adults aged ≥80 years [PR 2.71, 95% CI;2.59–2.84]. Spatial mapping showed that regions of lower quality of life were concentrated in the Prairies and Western Ontario, whereas regions of higher quality of life were concentrated in Quebec. Conclusions: Amongst older individuals residing in Canadian communities, less than perfect quality of life and functional health is unequally distributed among females, older adults aged ≥80 years, and those residing in the Prairie regions specifically. Newer policy should focus on interventions targeted at these subpopulations to ensure that healthy aging in within reach for all Canadians. [ABSTRACT FROM AUTHOR]

Published

2024

30. The genetic structure of founding bumblebee populations in reconstructed prairie habitat 3 years after planting.

Author

Bruns, Clarissa E., Demastes, James W., Berendzen, Peter B., and Wen, Ai

Subjects

PRAIRIES, BUMBLEBEES, FORESTED wetlands, HABITATS, BEE colonies, POPULATION genetics, TREE-rings

Abstract

The decline of wild bee pollinators has prompted habitat reconstruction in many regions around the world in order to increase the floral resources available to pollinators. Relatively little research has monitored the genetic differentiation and the relatedness of founding bumblebee populations during the colony recruitment process after vegetation is planted in the landscape. We surveyed nine 3‐year post‐planting reconstructed prairie sites located in the corn belt of the U.S. Midwest, where the landscape is largely dominated by industrialized row crops. Using seven microsatellite loci from 103 Bombus griseocollis, we examined the population genetics of this generalist bee's colonies established on these newly constructed prairie sites. When analyzed, B. griseocollis populations from an older reconstructed site were more genetically distinct from newly established bumblebee populations on reconstructed sites, while the new reconstructed sites exhibited no genetic structure. The floral richness or abundance at the reconstructed sites did not contribute to the allelic richness of the recolonized bumblebee populations. We did, however, find significant negative correlations between the bumblebee populations' allelic richness and the percent coverage of row‐crop farmland in the surrounding landscape and positive correlations between the allelic richness and forest and woody wetland habitat covers. This finding strongly indicates the importance of the composition of the surrounding landscape in the recruitment period of the founding pollinator populations. [ABSTRACT FROM AUTHOR]

Published

2024

31. Long-Term Contaminant Exposure Alters Functional Potential and Species Composition of Soil Bacterial Communities in Gulf Coast Prairies.

Author

Lumibao, Candice Y. and Liu, Yue

Subjects

HEAVY metal toxicology, BACTERIAL communities, OIL spills, HEAVY oil, MICROBIAL communities, BARRIER islands, PRAIRIES

Abstract

Environmental pollution is a persistent threat to coastal ecosystems worldwide, adversely affecting soil microbiota. Soil microbial communities perform critical functions in many coastal processes, yet they are increasingly subject to oil and heavy metal pollution. Here, we assessed how small-scale contamination by oil and heavy metal impacts the diversity and functional potential of native soil bacterial communities in the gulf coast prairie dunes of a barrier island in South Texas along the northern Gulf of Mexico. We analyzed the bacterial community structure and their predicted functional profiles according to contaminant history and examined linkages between species diversity and functional potential. Overall, contaminants altered bacterial community compositions without affecting richness, leading to strongly distinct bacterial communities that were accompanied by shifts in functional potential, i.e., changes in predicted metabolic pathways across oiled, metal, and uncontaminated environments. We also observed that exposure to different contaminants can either lead to strengthened or decoupled linkages between species diversity and functional potential. Taken together, these findings indicate that bacterial communities might recover their diversity levels after contaminant exposure, but with consequent shifts in community composition and function. Furthermore, the trajectory of bacterial communities can depend on the nature or type of disturbance. [ABSTRACT FROM AUTHOR]

Published

2024

32. Prairie restoration promotes the abundance and diversity of mutualistic arbuscular mycorrhizal fungi.

Author

MacColl, Kevin A., Tosi, Micaela, Chagnon, Pierre‐Luc, MacDougall, Andrew S., Dunfield, Kari E., and Maherali, Hafiz

Subjects

PRAIRIES, VESICULAR-arbuscular mycorrhizas, BIOTIC communities, SOIL biology, AGRICULTURE, PLANT colonization

Abstract

Predicting how biological communities assemble in restored ecosystems can assist in conservation efforts, but most research has focused on plants, with relatively little attention paid to soil microbial organisms that plants interact with. Arbuscular mycorrhizal (AM) fungi are an ecologically significant functional group of soil microbes that form mutualistic symbioses with plants and could therefore respond positively to plant community restoration. To evaluate the effects of plant community restoration on AM fungi, we compared AM fungal abundance, species richness, and community composition of five annually cultivated, conventionally managed agricultural fields with paired adjacent retired agricultural fields that had undergone prairie restoration 5–9 years prior to sampling. We hypothesized that restoration stimulates AM fungal abundance and species richness, particularly for disturbance‐sensitive taxa, and that gains of new taxa would not displace AM fungal species present prior to restoration due to legacy effects. AM fungal abundance was quantified by measuring soil spore density and root colonization. AM fungal species richness and community composition were determined in soils and plant roots using DNA high‐throughput sequencing. Soil spore density was 2.3 times higher in restored prairies compared to agricultural fields, but AM fungal root colonization did not differ between land use types. AM fungal species richness was 2.7 and 1.4 times higher in restored prairies versus agricultural fields for soil and roots, respectively. The abundance of Glomeraceae, a disturbance‐tolerant family, decreased by 25% from agricultural to restored prairie soils but did not differ in plant roots. The abundance of Claroideoglomeraceae and Diversisporaceae, both disturbance‐sensitive families, was 4.6 and 3.2 times higher in restored prairie versus agricultural soils, respectively. Species turnover was higher than expected relative to a null model, indicating that AM fungal species were gained by replacement. Our findings demonstrate that restoration can promote a relatively rapid increase in the abundance and diversity of soil microbial communities that had been degraded by decades of intensive land use, and community compositional change can be predicted by the disturbance tolerance of soil microbial taxonomic and functional groups. [ABSTRACT FROM AUTHOR]

Published

2024

33. Secondary production of the central rangeland region of the United States.

Author

Raynor, Edward J., Derner, Justin D., Hartman, Melannie D., Dorich, Christopher D., Parton, William J., Hendrickson, John R., Harmoney, Keith R., Brennan, Jameson R., Owensby, Clenton E., Kaplan, Nicole E., Lutz, Susan M., Hoover, David L., and Augustine, David J.

Subjects

PRAIRIES, CONSUMER behavior, LIVESTOCK productivity, SPATIAL variation, LAND use, RANGELANDS

Abstract

Rangelands are the dominant land use across a broad swath of central North America where they span a wide gradient, from <350 to >900 mm, in mean annual precipitation. Substantial efforts have examined temporal and spatial variation in aboveground net primary production (ANPP) to precipitation (PPT) across this gradient. In contrast, net secondary productivity (NSP, e.g., primary consumer production) has not been evaluated analogously. However, livestock production, which is a form of NSP or primary consumer production supported by primary production, is the dominant non‐cultivated land use and an integral economic driver in these regions. Here, we used long‐term (mean length = 19 years) ANPP and NSP data from six research sites across the Central Great Plains with a history of a conservative stocking to determine resource (i.e., PPT)–productivity relationships, NSP sensitivities to dry‐year precipitation, and regional trophic efficiencies (e.g., NSP:ANPP ratio). PPT–ANPP relationships were linear for both temporal (site‐based) and spatial (among site) gradients. The spatial PPT–NSP model revealed that PPT mediated a saturating relationship for NSP as sites became more mesic, a finding that contrasts with many plant‐based PPT–ANPP relationships. A saturating response to high growing‐season precipitation suggests biogeochemical rather than vegetation growth constraints may govern NSP (i.e., large herbivore production). Differential sensitivity in NSP to dry years demonstrated that the primary consumer production response heightened as sites became more xeric. Although sensitivity generally decreased with increasing precipitation as predicted from known PPT–ANPP relationships, evidence suggests that the dominant species' identity and traits influenced secondary production efficiency. Non‐native northern mixed‐grass prairie was outperformed by native Central Great Plains rangeland in sensitivity to dry years and efficiency in converting ANPP to NSP. A more comprehensive understanding of the mechanisms leading to differences in producer and consumer responses will require multisite experiments to assess biotic and abiotic determinants of multi‐trophic level efficiency and sensitivity. [ABSTRACT FROM AUTHOR]

Published

2024

34. Juvenile survival increases with dispersal distance and varies across years: 15 years of evidence in a prairie perennial.

Author

Richardson, Lea K., Nordstrom, Scott W., Waananen, Amy, Thoen, Riley D., Dykstra, Amy B., Kiefer, Gretel, Mullett, Drake E., Eichenberger, Erin G., Shaw, Ruth G., and Wagenius, Stuart

Subjects

PRAIRIES, DEMOGRAPHIC change, HERBACEOUS plants, FRAGMENTED landscapes, SEEDLINGS

Abstract

Juvenile survival is critical to population persistence and evolutionary change. However, the survival of juvenile plants from emergence to reproductive maturity is rarely quantified. This is especially true for long‐lived perennials with extended pre‐reproductive periods. Furthermore, studies rarely have the replication necessary to account for variation among populations and cohorts. We estimated juvenile survival and its relationship to population size, density of conspecifics, distance to the maternal plant, age, year, and cohort for Echinacea angustifolia, a long‐lived herbaceous perennial. In 14 remnant prairie populations over seven sampling years, 2007–2013, we identified 886 seedlings. We then monitored these individuals annually until 2021 (8–15 years). Overall, juvenile mortality was very high; for almost all cohorts fewer than 10% of seedlings survived to age 8 or to year 2021. Only two of the seedlings reached reproductive maturity within the study period. Juvenile survival increased with distance from the maternal plant and varied more among the study years than it did by age or cohort. Juvenile survival did not vary with population size or local density of conspecific neighbors. Our results suggest that low juvenile survival could contribute to projected population declines. [ABSTRACT FROM AUTHOR]

Published

2024

35. Landsat-8/9 Atmospheric Correction Reliability Using Scene Statistics.

Author

Groeneveld, David, Ruggles, Tim, and Gao, Bo-Cai

Subjects

LANDSAT satellites, WEATHER, NULL hypothesis, REFLECTANCE, PRAIRIES, STATISTICS, GRASSLAND soils

Abstract

Landsat data correction using the Land Surface Reflectance Code (LaSRC) has been proposed as the basis for the atmospheric correction of smallsats. While atmospheric correction can enhance smallsat data, the Landsat/LaSRC pathway delays output and may constrain accuracy and utility. The alternative, the Closed-form Method for Atmospheric Correction (CMAC), developed for smallsat application, provides surface reflectance derived solely from scene statistics. In a prior paper, CMAC closely agreed with LaSRC software for correction of the four VNIR bands of Landsat-8/9 images for conditions of low to moderate atmospheric effect over quasi-invariant warehouse-industrial targets. Those results were accepted as surrogate surface reflectance to support analysis of CMAC and LaSRC reliability for surface reflectance retrieval in two contrasting environments: shortgrass prairie and barren desert. Reliability was defined and tested through a null hypothesis: the same top-of-atmosphere reflectance under the same atmospheric condition will provide the same estimate of surface reflectance. Evaluated against the prior surrogate surface reflectance, the results found decreasing error with increasing wavelength for both methods. From 58 comparisons across the four bands, the LaSRC average absolute error ranged from 0.59% (NIR) to 50.30% (blue). CMAC provided reliable results: error was well constrained from 0.01% (NIR) to 0.98% (blue). [ABSTRACT FROM AUTHOR]

Published

2024

36. Treed Gaussian processes for animal movement modeling.

Author

Rieber, Camille J., Hefley, Trevor J., and Haukos, David A.

Subjects

ANIMAL mechanics, GAUSSIAN processes, MARKOV chain Monte Carlo, ANIMAL radio tracking, ANIMAL ecology, PRAIRIES, STATISTICAL learning

Abstract

Wildlife telemetry data may be used to answer a diverse range of questions relevant to wildlife ecology and management. One challenge to modeling telemetry data is that animal movement often varies greatly in pattern over time, and current continuous‐time modeling approaches to handle such nonstationarity require bespoke and often complex models that may pose barriers to practitioner implementation. We demonstrate a novel application of treed Gaussian process (TGP) modeling, a Bayesian machine learning approach that automatically captures the nonstationarity and abrupt transitions present in animal movement. The machine learning formulation of TGPs enables modeling to be nearly automated, while their Bayesian formulation allows for the derivation of movement descriptors with associated uncertainty measures. We demonstrate the use of an existing R package to implement TGPs using the familiar Markov chain Monte Carlo algorithm. We then use estimated movement trajectories to derive movement descriptors that can be compared across individuals and populations. We applied the TGP model to a case study of lesser prairie‐chickens (Tympanuchus pallidicinctus) to demonstrate the benefits of TGP modeling and compared distance traveled and residence times across lesser prairie‐chicken individuals and populations. For broad usability, we outline all steps necessary for practitioners to specify relevant movement descriptors (e.g., turn angles, speed, contact points) and apply TGP modeling and trajectory comparison to their own telemetry datasets. Combining the predictive power of machine learning and the statistical inference of Bayesian methods to model movement trajectories allows for the estimation of statistically comparable movement descriptors from telemetry studies. Our use of an accessible R package allows practitioners to model trajectories and estimate movement descriptors, facilitating the use of telemetry data to answer applied management questions. [ABSTRACT FROM AUTHOR]

Published

2024

37. Correlative ecological niche model applications to predicting landscape-scale woody plant encroachment in Kansas tallgrass prairie systems.

Author

Peterson, A. Townsend, Yao, Yuan, Cobos, Marlon E., and Xiao, Xiangming

Subjects

PRAIRIES, ECOLOGICAL models, ECOLOGICAL niche, WOODY plants, CHARACTERISTIC functions, FORECASTING

Abstract

Woody plant encroachment (WPE) in grassland ecosystems has been a pervasive process across the Great Plains, yet a predictive understanding of where it will occur has been elusive. As an exploration of tools of potential utility in this challenge, we mapped WPE processes over the years 2015–2021 in a set of 9 counties in central Kansas. We developed and tested two correlative models based on landscape features: one that assessed distribution of evergreen trees in 2015, and another that assessed areas of WPE in succeeding years. Both models were successful, being able to predict 2015 forest distributions and being able to predict WPE during 2015–2021, as functions of characteristics of landscapes. These simple, correlative models will certainly not be able to predict WPE processes globally, or even regionally, but provide first proof-of-concept explorations for the central Great Plains region. [ABSTRACT FROM AUTHOR]

Published

2024

38. The Ecological Benefits of Positive Public Perception on Public Access Ecological Restorations.

Author

Weaner, Larry

Subjects

PUBLIC opinion, RESTORATION ecology, PRAIRIES

Abstract

The article discusses the importance of considering public perception in ecological restoration projects. While restoration ecologists typically focus on enhancing the ecological health of an area, positive public perception can lead to increased support and funding for post-planting management. Projects that combine beauty and ecological richness can generate enthusiasm and funding for future projects. By arranging plants in visually and experientially pleasing ways, public perception can be improved without compromising the ecological value of the project. The article also explores the use of planting methodology and management practices to create coherence, legibility, complexity, and mystery in landscapes, which can further enhance public perception. [Extracted from the article]

Published

2024

39. Evaluating Cosmic Ray Neutron Sensor Estimates of Snow Water Equivalent in a Prairie Environment Using UAV Lidar.

Author

Woodley, M., Kim, H., Sproles, E., Eberly, J., and Tuttle, S.

Subjects

LIDAR, NEUTRONS, PRAIRIES, SNOW cover, SNOW accumulation, COSMIC rays

Abstract

Monitoring snow cover in prairie environments is important for understanding water and energy fluxes, agricultural production, and flooding, but difficult due to shallow snowpack and considerable snow heterogeneity. Cosmic ray neutron sensors (CRNS) are sensitive to snow within a radius of 150–250 m, which allows for continuous estimation of snow water equivalent (SWE) over a large footprint and may better represent area‐averaged snow cover in prairies than conventional SWE instruments, such as snow pillows. A CRNS was installed at Montana State University's Central Agricultural Research Center (CARC; 47.06°, −109.95°) in Moccasin, MT in coordination with NASA's SnowEx 2021 field campaign. This work assesses the feasibility of a CRNS for SWE monitoring in prairies by comparing CRNS SWE estimates to spatially distributed SWE derived from uninhabited aerial vehicle lidar snow depths within the sensor's footprint and manual snow pit measurements. Lidar observations show snow cover was highly spatially variable, with the largest snow accumulation near barriers and the least in barren fields. Additionally, we evaluate our CRNS SWE estimates using Ultra Rapid Neutron Only Simulation (URANOS) Monte Carlo simulations. Comparisons of SWE estimates derived from lidar, CRNS, and URANOS for shallow snowpack at the site yielded root mean square values of about 2 mm (approximately 30% of the mean SWE). These results suggest that the CRNS is effective at integrating over significant spatial variability within its footprint at this site. However, the spatial distribution of snow exerts a strong influence on the CRNS signal and must be considered when interpreting CRNS observations. Plain Language Summary: Snow in prairie environments can be highly variable due to a lack of tree cover and generally low relief, combined with windy conditions. In this study, we determine how accurately a cosmic ray neutron sensor (CRNS) can estimate snow water equivalent (SWE) for an agricultural site in central Montana. We found that our CRNS was sensitive to changes in the amount of water within a radius of 100–200 m from the instrument. For winter 2020–2021, the site experienced high spatial variability in snow depth, ranging from 1.7 m deep snowdrifts along a major windbreak to shallow snow or bare conditions in the agricultural fields that covered most of our 1 km2 study site. We compared CRNS SWE estimates at the site to independent SWE estimates derived from lidar snow depth maps and model simulations, and generally found agreement within the uncertainty of each SWE estimation method. This study supports that CRNS can integrate over the significant spatial variability common in prairie snowpacks, but how the snow varies around a given sensor has a strong influence on CRNS SWE estimates and must be considered when interpreting these types of observations. Key Points: We evaluate cosmic ray neutron sensor (CRNS) snow water equivalent (SWE) estimates using spatially distributed snow observations from lidar at a prairie siteWe use neutron transport model simulations to calibrate a site‐specific weighting function to represent the spatial sensitivity of a CRNSComparison to model‐ and lidar‐derived SWE show that our CRNS effectively estimates SWE for this heterogenous snowpack [ABSTRACT FROM AUTHOR]

Published

2024

40. Seeding Density Alters the Assembly of a Restored Plant Community after the Removal of a Dam in Southern Wisconsin, USA.

Author

Wells, Ana J., Harrington, John, and Balster, Nick J.

Subjects

PRAIRIES, DAM retirement, PLANT communities, NATIVE species, COLONIZATION (Ecology), SPECIES diversity

Abstract

Recently exposed reservoir sediments, prone to colonization by invasive species, provide novel settings to test hypotheses related to soil conditions and propagule supply as potential drivers of plant assembly in disturbed ecosystems. We used a dam removal site in southwestern Wisconsin to examine the relationship between the physiochemical properties of dewatered sediments, seeding density, and plant community assembly. The plant communities from five seed densities (1000, 500, 250, 125, and 0 seed m−2) were annually assessed over four years. We hypothesized (1) that the native aboveground biomass and the proportion of native to invasive (non-seeded species) aboveground biomass would increase with the seeding density and (2) that the diversity of seeded native species would increase with a higher seeding density. We found evidence that sowing at least 500 seeds m−2 of prairie species increased their abundance, establishment, and plot diversity compared to non-seeded plants that persisted four years after seeding (p < 0.05). The seeding density treatments led to the assembly of two distinct communities: "native" and "invasive". The "native" community, assembled in plots seeded with at least 500 seeds m−2, had a greater aboveground biomass and diversity (i.e., richness) of seeded plants compared to plots with lower seed densities, and its productivity was positively related to this richness. In the "weedy" community, the diversity of invasive species had no relationship to their aboveground biomass, likely because these species share similar traits (i.e., redundancy) and may have performed similar functions within the plant community. These findings suggest that the seeding density interacted with the disturbed soil resources to increase the diversity and productivity of seeded native species and may serve as a positive feedback mechanism for the establishment of native communities in dewatered sediments. [ABSTRACT FROM AUTHOR]

Published

2024

41. A Short Note on the Lifecycle of Yucca Giant-Skipper (Megathymus yuccae coloradensis C. Riley, 1877) (Hesperiidae: Megathymini).

Author

Sapkota, Anisha, Pollock, Darren A., Sajan, K C, and Cradock, Kenwyn R.

Subjects

HESPERIIDAE, NATURAL history, PRAIRIES

Abstract

This article provides a short note on the lifecycle of the Yucca Giant-Skipper butterfly, which is a relatively understudied species. The researchers conducted a survey in Roosevelt County, New Mexico, to locate populations of this butterfly. They found that the adults were commonly found in two prairie habitats with an abundance of their hostplant, Yucca glauca. The caterpillars of this species bore into the plant crown and feed within the root, constructing a silken "tent" or "chimney" at the opening of the burrow. The researchers also observed signs of parasitism by dipteran pupae, indicating the presence of parasitoid species. The study raises questions about the life history of the Giant-Skippers and the potential impact of inbreeding depression. [Extracted from the article]

Published

2024

42. Drivers of hydrologic budgets in small terminal lakes in the Alberta prairies.

Author

Snihur, Katherine N., Soares, Julia Valentina, Oiffer, Alex, Reyes, Alberto V., Flynn, Shannon L., Smerdon, Brian D., Konhauser, Kurt O., Froese, Duane, and Alessi, Daniel S.

Subjects

ENDORHEIC lakes, STABLE isotope analysis, PRAIRIES, CHEMICAL weathering, WATER table, GRASSLAND conservation

Abstract

Copyright of Canadian Water Resources Journal / Revue Canadienne des Ressources Hydriques is the property of Taylor & Francis Ltd and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

43. Bank erosion and erosion processes from dendrogeomorphology in southern U.S. prairie streams.

Author

White, Joseph D., Allen, Peter M., Norair, Stephen G., Barber, Samuel T., Dunbar, John, and Gao, Jungang

Subjects

EROSION, RIPARIAN areas, GEOMORPHOLOGY, WATERSHED management, ECOLOGICAL regions, PRAIRIES, WATERSHEDS

Abstract

Streambank erosion processes influence the amount of soil material contributed to rivers and sedimentation rates in receiving reservoirs. However, the amount of data on bank erosion rates is limited both in range and extent affecting planning for mitigation and watershed management. Dendrogeomorphology is used to determine the date of wood anatomy changes in annual growth increments of roots exposed by erosion of stream banks that when coupled with measurement of the distance of roots to the channel side can be used to calculate the bank retreat rate. Erosion rates derived from dendrogeomorphology are important because these provide erosion data over longer time scales (decades). Here, we use this method to quantify erosion for three different sized watersheds (4 to 3781 km2) located in the water‐scarce southern U.S. prairies that are heavily reliant on surface water and reservoir storage. From 49 roots from the two smaller drainages, erosion ranged from 1.5 to 25.4. For 19 roots collected from the larger subbasin erosion rates were larger ranging from 7.4 to 325.0 cm/years with the larger values and variance associated with two high‐flow events that occurred a year before sampling. We also found differences in straight and meandering portions of the streams where the distance to bank was strongly and positively correlated with the years since root exposure in straight sections. In contrast, meandering bends also showed a positive but low correlation for root exposure date and distance collected. We attribute this difference to erosional processes (i.e., scour and mass wasting) occurring at these channel locations. When compared with other erosion studies across the southern U.S. prairie, our values were similar in magnitude but with low correlation to drainage area indicating site specificity of erosion mechanisms, and watershed landcover influence for different drainages, despite being in the same ecological region. [ABSTRACT FROM AUTHOR]

Published

2024

44. An intellectual gap in root research on major crops of the Canadian Prairies.

Author

Gorim, Linda Yuya

Subjects

EVIDENCE gaps, PRAIRIES, POTTING soils, CARBON sequestration, ROOT diseases, PLANT growing media, NUTRIENT uptake

Abstract

Prairie cropping systems face several challenges, including high input costs and climate change. Research to address these challenges has focused on above-ground agronomic parameters while completely ignoring the role roots play below ground. The objectives of this review study are to (i) synthesize past root studies carried out in the Canadian Prairies, (ii) provide a context for prairie root research, and (iii) identify gaps for future research. This review reports that root architectural traits of major crops have been assessed under field and greenhouse conditions in soil, artificial media, and a mixture of both soil and media, mostly under natural/well-watered and drought conditions. Several root traits have been compared for major crops grown with respect to moisture levels and nutrient uptake. A dearth of research exists on the complex relationship between root traits, soil microbiome, nutrient uptake, carbon sequestration, and photosynthetic efficiency. No studies were found relating root traits, fertilizer placement, and nitrogen and water use efficiencies, carbon sequestration, soil microbiome dynamics, and common root diseases. This review also reports that more research and funding are needed to exploit the benefits that root research will bring to further sustainability goals and ensure food security in the Canadian Prairies. [ABSTRACT FROM AUTHOR]

Published

2024

45. Widespread annual occurrence of pesticides within designated critical habitats for endangered prairie butterflies.

Author

Runquist, Erik, Nordmeyer, Cale, and Stapleton, Seth

Subjects

INSECTICIDES, PESTICIDES, PRAIRIES, INSECT pollinators, BUTTERFLIES, HABITATS, AGRICULTURAL intensification

Abstract

Insect declines have become pronounced in prairie ecosystems, particularly in areas of agricultural intensification. Non-target pesticide exposure has been raised as a key concern for prairie remnant health. Over seven years, we screened grass and soil samples for the presence and quantities of hundreds of pesticides from five prairies in Minnesota and South Dakota that are designated as Critical Habitat for two globally endangered butterflies: Poweshiek skipperling and Dakota skipper. We documented dozens of pesticides across all sites and years on their larval host grasses. Interiors of prairies were not less likely to have detectable pesticides than along prairie-agriculture edges. Broad-spectrum organophosphate and pyrethroid insecticides were common in late season. Chlorpyrifos quantities were higher at sites where both endangered species have been extirpated. Neonicotinoid insecticides, which have been frequently attributed to declines in insect pollinators, did not present a significant exposure signal in these prairie habitats. Few pesticides were detected in soil or early season grass samples. The prevalence and quantities of pesticides we observed are likely underestimates, and additional research is needed on the landscape of risk at small and large scales. Implications for Conservation: Protected prairies are not immune to the risk of pesticide exposure, which may impact efforts to re-establish lost populations of imperiled prairie insects, including endangered butterflies. [ABSTRACT FROM AUTHOR]

Published

2024

46. Feasibility of Evidence-Based Social and Emotional Learning in Prairie Canadian Schools.

Author

Kilborn, Kayla, Newton Montgomery, Janine, Li, Johnson, Shooshtari, Shahin, Roy, Rachel, Cheri, Breanna, Tze, Virginia, and Gaulke, Taryn

Subjects

SOCIAL emotional learning, JOB stress, PRAIRIES

Abstract

This study examined opportunities and barriers for implementing evidence-based Social and Emotional Learning (SEL) programs in Prairie Canadian Schools. Educators from Manitoba, Saskatchewan and Alberta completed an online survey on SEL feasibility and reported on five feasibility domains: (1) attitudes about SEL, (2) knowledge about SEL, (3) job stress, (4) resources for implementing SEL, and (5) SEL practices. Results indicated that positive attitudes toward SEL significantly predicted increased perceived feasibility for evidence-based SEL implementation. Additionally, both knowledge and access to resources predicted increased SEL practice by Prairie Canadian educators. Analyses for open-ended responses paralleled quantitative results. Specifically, Canadian educators had positive views about SEL programing, but like previous research conducted in other countries, indicated that they require better access to SEL training, and resources (e.g., more time to plan and teach SEL, funding and program materials). A unique Canadian context-related finding from this study was that some Prairie Canadian educators indicated a paucity of French materials for SEL programs, which impeded implementation. In order to effectively implement evidence-based SEL in Prairie Canadian schools, policy makers must address the indicated barriers for Canadian educators, such as increased SEL training and resources, and easy access to appropriate French materials. [ABSTRACT FROM AUTHOR]

Published

2024

47. Treed Gaussian processes for animal movement modeling.

Author

Rieber, Camille J., Hefley, Trevor J., and Haukos, David A.

Subjects

ANIMAL mechanics, GAUSSIAN processes, MARKOV chain Monte Carlo, ANIMAL radio tracking, ANIMAL ecology, PRAIRIES, STATISTICAL learning

Abstract

Wildlife telemetry data may be used to answer a diverse range of questions relevant to wildlife ecology and management. One challenge to modeling telemetry data is that animal movement often varies greatly in pattern over time, and current continuous‐time modeling approaches to handle such nonstationarity require bespoke and often complex models that may pose barriers to practitioner implementation. We demonstrate a novel application of treed Gaussian process (TGP) modeling, a Bayesian machine learning approach that automatically captures the nonstationarity and abrupt transitions present in animal movement. The machine learning formulation of TGPs enables modeling to be nearly automated, while their Bayesian formulation allows for the derivation of movement descriptors with associated uncertainty measures. We demonstrate the use of an existing R package to implement TGPs using the familiar Markov chain Monte Carlo algorithm. We then use estimated movement trajectories to derive movement descriptors that can be compared across individuals and populations. We applied the TGP model to a case study of lesser prairie‐chickens (Tympanuchus pallidicinctus) to demonstrate the benefits of TGP modeling and compared distance traveled and residence times across lesser prairie‐chicken individuals and populations. For broad usability, we outline all steps necessary for practitioners to specify relevant movement descriptors (e.g., turn angles, speed, contact points) and apply TGP modeling and trajectory comparison to their own telemetry datasets. Combining the predictive power of machine learning and the statistical inference of Bayesian methods to model movement trajectories allows for the estimation of statistically comparable movement descriptors from telemetry studies. Our use of an accessible R package allows practitioners to model trajectories and estimate movement descriptors, facilitating the use of telemetry data to answer applied management questions. [ABSTRACT FROM AUTHOR]

Published

2024

48. Temporal trends in disparities in COVID-19 seropositivity among Canadian blood donors.

Author

Yu, Yuan, Knight, Matthew J, Gibson, Diana, O'Brien, Sheila F, Buckeridge, David L, and Russell, W Alton

Subjects

BLOOD donors, SEROCONVERSION, YOUNG adults, PRAIRIES, COVID-19, MULTILEVEL models

Abstract

Background In Canada's largest COVID-19 serological study, SARS-CoV-2 antibodies in blood donors have been monitored since 2020. No study has analysed changes in the association between anti-N seropositivity (a marker of recent infection) and geographic and sociodemographic characteristics over the pandemic. Methods Using Bayesian multi-level models with spatial effects at the census division level, we analysed changes in correlates of SARS-CoV-2 anti-N seropositivity across three periods in which different variants predominated (pre-Delta, Delta and Omicron). We analysed disparities by geographic area, individual traits (age, sex, race) and neighbourhood factors (urbanicity, material deprivation and social deprivation). Data were from 420 319 blood donations across four regions (Ontario, British Columbia [BC], the Prairies and the Atlantic region) from December 2020 to November 2022. Results Seropositivity was higher for racialized minorities, males and individuals in more materially deprived neighbourhoods in the pre-Delta and Delta waves. These subgroup differences dissipated in the Omicron wave as large swaths of the population became infected. Across all waves, seropositivity was higher in younger individuals and those with lower neighbourhood social deprivation. Rural residents had high seropositivity in the Prairies, but not other regions. Compared to generalized linear models, multi-level models with spatial effects had better fit and lower error when predicting SARS-CoV-2 anti-N seropositivity by geographic region. Conclusions Correlates of recent COVID-19 infection have evolved over the pandemic. Many disparities lessened during the Omicron wave, but public health intervention may be warranted to address persistently higher burden among young people and those with less social deprivation. [ABSTRACT FROM AUTHOR]

Published

2024

49. Broad-scale changes in lesser prairie-chicken habitat.

Author

Vhay, Megan P., Haukos, David A., Sullins, Daniel S., and Rice, Mindy B.

Subjects

HABITATS, GAS wells, OIL wells, ELECTRIC lines, WIND power plants, PRAIRIES, GRASSLANDS

Abstract

Lesser prairie-chicken (Tympanuchus pallidicinctus) populations of in the Sand Sagebrush Prairie Ecoregion of southwest Kansas and southeast Colorado, USA, have declined sharply since the mid-1980s. Decreased quality and availability of habitat are believed to be the main drivers of declines. Our objective was to reconstruct broad-scale change in the ecoregion since 1985 as a potential factor in population declines. We assessed temporal change from 1985–2015 in landcover types and calculated landscape metrics using Land Change Monitoring, Assessment, and Projection imagery layers. We also documented presence of anthropogenic structures including oil wells and electrical transmission lines. Landcover type composition changed little since 1990 across the Sand Sagebrush Prairie Ecoregion. However, anthropogenic structures (i.e., oil/gas wells, cell towers, wind farms, and transmission lines) notably increased, potentially causing functional habitat loss at a broad scale. Increased anthropogenic structures may have decreased habitat availability as well as the quality of existing habitat for lesser prairie-chickens, possibly contributing to recent population declines throughout the Sand Sagebrush Prairie Ecoregion. [ABSTRACT FROM AUTHOR]

Published

2024

50. Current and potential pest threats for canola in the Canadian Prairies.

Author

Cornelsen, Justine EJ, Ort, Nathaniel WW, Gabert, R Keith, Epp, Ian, and Rempel, Curtis B

Subjects

CANOLA, RAPESEED, PRAIRIES, COMMODITY chains, OILSEEDS, PESTS, GRASSLAND soils

Abstract

Canola/oilseed rape (Brassica napus L.) production in Canada has increased to become a foundational crop in the Canadian Prairies and an important economic driver of this region. The increase in seeded area, and by association its reduction in‐crop rotation frequency, has made it easier for pests to overcome current recommended agronomic management practices. The Canola Council of Canada has been successful in involving the entire commodity value chain in promoting and strengthening the Canadian canola industry; however, because of this production increase it is critically important to understand, evaluate and mitigate the potential risks of canola yield losses to current and potential pests. This Perspective provides an overview of what are currently the most damaging insects, pathogens and weeds to canola in the Canadian Prairies, potential future threats and opportunities farmers, agronomists and researchers can take to minimize these risks. © 2023 Society of Chemical Industry. [ABSTRACT FROM AUTHOR]

Published

2024