TERRESTRIAL ARTHROPODS OF CANADIAN PEATLANDS: SYNOPSIS OF PAN TRAP COLLECTIONS AT FOUR SOUTHERN ONTARIO PEATLANDS

AbstractThis report is a synopsis of the terrestrial arthropod faunas collected from four peatlands in southern Ontario. The peatlands surveyed were the Wylde Lake bog (43°55′N, 80°30′W), Crieff fen (43°25′N, 80°07′W), Oliver bog (43°20′N, 80°16′W), and the Wainfleet bog (42°55′N, 79°17′W). Arthropods were collected in yellow pan traps (aluminum pan traps at Wainfleet) during the period May 1987 to June 1988 (including the period of snow cover from December to March). A total of 33 029 specimens were removed from the pan trap samples and of these 17 173 individuals were assigned to species. Between 603 and 870 species of arthropods were identified from each site. Collections from each site were compared using taxonomic and ecological groupings (based on feeding behaviour and habitat preference) of species. Sorensen's Index of Similarity was used to compare the overlap of species among sites. The Hymenoptera, Diptera, Coleoptera, and Araneae were the most species-rich orders collected at each site. More species preferring peatlands were collected at each of the three undisturbed peatlands (Wylde L., Crieff, and Oliver) than at the mined bog, Wainfleet. Species not usually associated with peatlands were more numerous in the Wainfleet collection than in collections from the undisturbed sites. It is concluded that grouping of species by habitat preference is a useful technique for assessing habitat disturbance.

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Effect of meadow regeneration on bee (Hymenoptera: Apoidea) abundance and diversity in southern Ontario, Canada

The Canadian Entomologist ◽

10.4039/tce.2013.42 ◽

2013 ◽

Vol 145 (6) ◽

pp. 655-667 ◽

Cited By ~ 8

Author(s):

Amy C. Rutgers-Kelly ◽

Miriam H. Richards

Keyword(s):

Species Richness ◽

First Year ◽

Southern Ontario ◽

Landfill Sites ◽

Bee Diversity ◽

Bee Community ◽

Abundance And Diversity ◽

And Control ◽

Pan Traps ◽

Bee Abundance

AbstractTo investigate how bee (Hymenoptera: Apoidea) communities repopulate habitat following severe disturbances, we compared assemblages in new, regenerating landfill sites planted in 2003, recent landfill sites planted in 2000, and control meadows relatively undisturbed for >40 years. All sites were identically sampled using pan traps and sweep netting, from early May to late September 2003, equalising collection effort among sites. In addition, we carried out five-minute aerial net samplings wherever sites contained large patches of wildflowers. We predicted that abundance and diversity of bees would be highest in recent sites and lowest in new sites. This prediction was partially supported: bees were most abundant in recent sites followed by control, then new sites, but species richness was highest (82 species) in recent sites, followed by new sites (67 species), then control (66 species). A randomisation analysis showed that there were more species than expected in new sites and fewer than expected in control sites. Differences in blossom availability likely explain differences in bee abundance and diversity among habitat regeneration levels. Overall, our results suggest that the bee community recolonised newly available sites immediately in the first year and that bee diversity and abundance increased for at least three years, subsequently declining between three and 40 years.

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Habitat preference and functional traits influence responses of tropical butterflies to varied habitat disturbance

International Journal of Tropical Insect Science ◽

10.1007/s42690-021-00609-1 ◽

2021 ◽

Author(s):

Suman Attiwilli ◽

Tarun Karmakar ◽

Kavita Isvaran ◽

Krushnamegh Kunte

Keyword(s):

Functional Traits ◽

Habitat Preference ◽

Habitat Disturbance

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Effects of Averaging and Separating Soil Moisture and Temperature in the Presence of Snow Cover in a SVAT and Hydrological Model for a Southern Ontario, Canada, Watershed

Journal of Hydrometeorology ◽

10.1175/jhm489.1 ◽

2006 ◽

Vol 7 (2) ◽

pp. 298-304 ◽

Cited By ~ 9

Author(s):

S. R. Fassnacht ◽

Z-L. Yang ◽

K. R. Snelgrove ◽

E. D. Soulis ◽

N. Kouwen

Keyword(s):

Soil Moisture ◽

Snow Cover ◽

Land Surface ◽

Climate Models ◽

Hydrologic Model ◽

State Variables ◽

Time Step ◽

Southern Ontario ◽

Surface Scheme ◽

Soil Temperature And Moisture

Abstract The energy and water balances at the earth's surface are dramatically influenced by the presence of snow cover. Therefore, soil temperature and moisture for snow-covered and snow-free areas can be very different. In computing these soil state variables, many land surface schemes in climate models do not explicitly distinguish between snow-covered and snow-free areas. Even if they do, some schemes average these state variables to calculate grid-mean energy fluxes and these averaged state variables are then used at the beginning of the next time step. This latter approach introduces a numerical error in that heat is redistributed from snow-free areas to snow-covered areas, resulting in a more rapid snowmelt. This study focuses on the latter approach and examines the sensitivity of soil moisture and streamflow to the treatment of the soil state variables in the presence of snow cover by using WATCLASS, a land surface scheme linked with a hydrologic model. The model was tested for the 1993 snowmelt period on the Upper Grand River in Southern Ontario, Canada. The results show that a more realistic simulation of streamflow can be obtained by keeping track of the soil states in snow-covered and snow-free areas.

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Sex trafficking of women and girls in a southern Ontario region: Police file review exploring victim characteristics, trafficking experiences, and the intersection with child welfare.

Canadian Journal of Behavioural Science/Revue canadienne des sciences du comportement ◽

10.1037/cbs0000151 ◽

2020 ◽

Vol 52 (1) ◽

pp. 8-17 ◽

Cited By ~ 2

Author(s):

Kyla Baird ◽

Kyla P. McDonald ◽

Jennifer Connolly

Keyword(s):

Child Welfare ◽

Sex Trafficking ◽

Southern Ontario ◽

Women And Girls

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Impacts of Fractional Snow Cover on Surface Air Temperature in the NCAR Community Atmosphere Model (NCAR-CAM2)

Engineering, Construction, and Operations in Challenging Environments ◽

10.1061/40722(153)38 ◽

2004 ◽

Author(s):

Zong-Liang Yang ◽

Guo-Yue Niu ◽

Qianru Zeng

Keyword(s):

Snow Cover ◽

Air Temperature ◽

Surface Air Temperature ◽

Community Atmosphere Model ◽

Fractional Snow Cover ◽

Atmosphere Model

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ЭКОЛОГО-ГЕОХИМИЧЕСКОЕ РАЙОНИРОВАНИЕ ТЕРРИТОРИИГ. БИРОБИДЖАНА ПО УРОВНЮ ЗАГРЯЗНЕНИЯ СНЕЖНОГО ПОКРОВА

10.33833/tig.2019.81.41.013 ◽

2019 ◽

Author(s):

V.B. Kalmanova

Keyword(s):

Heavy Metals ◽

Snow Cover ◽

Urban Area ◽

Constructive Method ◽

Comparative Characteristic ◽

Ecological State ◽

Sources Of Pollution ◽

Mobile Sources ◽

Arcview Gis ◽

Very High

В статье представлены результаты исследования экологогеохимического состояния снежного покрова как индикатора качества атмосферного воздуха г. Биробиджана. Выявлены основные природные и антропогенные факторы, предопределяющие экологическое состояние городской территории в зимний период (климатические, планировочная структура, стационарные и мобильные источники загрязнения). Определено, что выбросы основных загрязнителей во время отопительного сезона превышает летний в 6,5 раз. Проведены геохимические исследования снежного покрова на 60 экспериментальных площадках, заложенных в различных функциональных зонах города. Выявлено значительное превышение тяжелых металлов над фоновым уровнем: железа до 60, марганца до 50, меди до 40, цинка до 20, никеля до 12, свинца до 10, кобальта до 6 раз. С 2003 по 2018 годы содержание химических элементов в снеге увеличилось в 2 раза за счет мобильных источников загрязнения, ТЭЦ, котельных. Проведена сравнительная характеристика накопления тяжелых металлов в снеге за 2003 и 2018 годы и установлен ранжированный ряд загрязняющих токсичных веществ. Разработана шкала оценки загрязнения депонирующих сред по суммарному показателю концентрации тяжелых металлов, согласно которой в Биробиджане выявлено 5 уровней загрязнения снежного покрова. В целом экологическое состояние урбанизированной территории признано неудовлетворительным (8 площади территории относится к очень высокому, 14 к высокому, 21 к выше среднему, 27 к среднему уровням загрязнения, 30 к относительно чистым районам города). По полученным результатам разработана карта в программе ArcView GIS Экологогеохимическое районирование территории г. Биробиджана по уровню загрязнения снежного покрова с выделением наиболее загрязненных участков (70 от общей площади города является загрязненной). По результатам проведенных исследований предложены конструктивные методы планирования урбанизированной территории с целью улучшения ее экологического состояния: проведение геомониторинга (контроль загрязнения снежного покрова и своевременный его вывоз на специально оборудованные полигоны). Snow cover is taken as an indicator of air quality using Birobidzhan, a middlesize city in the Russian Far East, as a case study. The main natural and manmade determinants influencing the ecological state of the urban area in winter are identified: climate, a planning structure, and the stationary and mobile sources of pollution. During the heating season the emission of major pollutants exceeds the summer level by 6.5 times. The geochemical study of snow cover was performed at 60 experimental sites in different functional urban areas. A significant excess of heavy metals over the regional background level was revealed: iron up to 60 times, manganese up to 50, copper up to 40, zinc up to 20 , nickel up to 12, lead up to 10, cobalt up to 6 times. From 2003 to 2018 the content of chemical elements in snow increased in 2 times due to the mobile sources of pollution, thermal power plants, and boilers. The comparative characteristic of accumulation of heavy metals in snow for 2003 and 2018 is carried out, and the ranked number of polluting toxic substances is established. The scale of pollution assessment in depositing environments was developed using the cumulative indicator of heavy metal concentration. Five levels of snow cover pollution are found in Birobidzhan: low, moderate, above moderate, high and very high. As a whole, the ecological state of the urban area is considered as unsatisfactory (8 of the area with a very high level of pollution, 14 with high, 21 above moderate, 27 a moderate level of pollution, 30 a relatively clean area). According to the results, a map was developed in the ArcView GIS program Ecological and geochemical zoning of Birobidzhan, using the level of the snow cover pollution with the allocation of the most polluted areas (70 of the total area of the city is polluted). According to the results, a constructive method of planning in an urban area is proposed in order to improve its environmental condition: geomonitoring as a control of pollution in snow cover and its prompt removal to specially equipped landfills.

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