An Assessment of Night Time and Seasonal Electrofishing in the Lower Wabash River

Large rivers are highly important systems; being exploited both commercially and recreationally. Because of this usage by humans, close monitoring of the ecology of theses rivers is of the utmost importance. The Long-Term Electrofishing project (LTEF) monitors the fish communities of the Illinois, Mississippi, Wabash, and Ohio rivers using day time, pulsed-DC electrofishing during the late Spring through the early Fall each year. Given that previous studies have noted diel and seasonal changes in catch and composition of fish communities, the addition of night time electrofishing may be beneficial to the overarching goals of the LTEF. This study sought to determine whether significant diel and seasonal changes are occurring in the Wabash and whether these changes are significant enough to warrant additional sampling the LTEF protocol. To investigate this question, I used night time, pulsed-DC electrofishing at fixed sites corresponding to LTEF sites in the Lower Wabash River from October 2016 to November 2017. I compared catch per unit of effort (CPUE), length distributions, and family composition between my night time electrofishing data and LTEF day time electrofishing data from 2017. Additionally, I compared these three parameters between seasons using my night time data. Diel comparisons showed some variation in catch rates between night and day but were proportionate in composition. Similarly, seasonal comparisons showed variation in catch rates but generally lower catches of all families during the Winter. Night time electrofishing had a significantly higher mean CPUE than day time sampling (p \u3c 0.05), the three most prevalent families being Catostomidae, Cyprinidae, and Sciaenidae. Of the three families, only Sciaenidae had a significantly different length distribution; showing a shift towards smaller fish during the night (p \u3c ii 0.025). Seasonally, average CPUE did not differ significantly between seasons (p \u3e 0.05). However, the individual families compared had significantly lower CPUEs in the Winter and Sciaenidae had significantly higher CPUEs in the Fall compared to other seasons (p \u3c 0.008). Seasonal length distributions of Sciaenidae did not differ significantly, however. Other fish families did have significant seasonal differences in length distributions, generally showing a shift towards mid-sized fish in the Summer (p \u3c 0.008). These results indicate that diel and seasonal variations do occur in the Wabash. However, Given the proportionality of families captured between night and day as well as the relatively low catch rates in the winter, I would not recommend the addition of night time electrofishing or extended seasonal sampling to the LTEF as it would not benefit the overarching goals of the project

Legibility, privacy and creativity:linked data in a surveillance society

This paper looks at the issue of privacy and anonymity through the prism of Scott's concept of legibility i.e. the desire of the state to obtain an ever more accurate mapping of its domain and the actors in its domain. We argue that privacy was absent in village life in the past, and it has arisen as a temporary phenomenon arising from the lack of appropriate technology to make all life in the city legible. Cities have been the loci of creativity for the major part of human civilisation. There is something specific about the illegibility of cities which facilitates creativity and innovation. By providing the technology to catalogue and classify all objects and ideas around us, this leads to a consideration of semantic web technologies, Linked Data and the Internet of Things as unwittingly furthering this ever greater legibility. There is a danger that the over description of a domain will lead to a loss in creativity and innovation. We conclude by arguing that our prime concern must be to preserve illegibility because the survival of some form, any form, of civilisation depends upon it

Wood Duck Investigations W-118-R-4-5-6 Final Report

W-118-R-4-5-6 (Final Report); issued November 20, 1998; Study I: Aerial helicopter surveys of breeding wood ducks in bottomland forest.Report issued on: November 20, 1998INHS Technical Report prepared for Illinois Department of Natural Resource

Aerial Inventories of Waterfowl in Illinois and Estimation of Moist-soil Plant Seed Abundance for Waterfowl on Lands Managed by Illinois Department of Natural Resources

Grant/Contract No: W-43-R 53-54-55Reports on progress and results of inventories of waterfowl along the Illinois and central Mississippi rivers during fall and winter and estimation of moist-soil plant seed abundance for waterfowl on lands managed by Illinois Department of Natural ResourcesINHS Technical Report Prepared for U.S. Fish & Wildlife Service, Illinois Department of Natural Resource

Waterbird and Wetland Monitoring at The Emiquon Preserve Annual Report 2017

The Nature Conservancy (TNC) identified key ecological attributes (hereafter, KEAs) of specific biological characteristics or ecological processes that evaluate restoration success and trajectory at The Emiquon Preserve (hereafter Emiquon; The Nature Conservancy 2006). Because of the historic importance of the Illinois River valley (IRV) to waterfowl and other waterbirds, several conservation targets and associated KEAs at Emiquon were related to waterbird communities and their habitats (Appendix A). Indeed, use of wetlands by waterbirds may serve as an indicator of landscape condition or a measure of restoration success (Austin et al. 2001, Gawlik 2006, Hagy et al. 2017). Therefore, we monitored the response of wetland vegetation and waterbirds to restoration efforts at Emiquon during 2017 to evaluate restoration success relative to desired conditions under the relevant KEAs. Our primary efforts included evaluating: 1) abundance and diversity of waterfowl and other waterbirds through spring and autumn aerial counts; 2) productivity by waterfowl and other waterbirds through brood counts and nest searches; 3) plant seed biomass to estimate energetic carrying capacity for waterfowl during autumn migration; 4) biomass of wetland plants and seeds emigrating from Emiquon through the water control structure; and 5) composition and arrangement of wetland vegetation communities and associated cover types through geospatial covermapping and soil properties in response to water management. Herein, we report results of our monitoring efforts and interpret them as a means of evaluating restoration activities at Emiquon with respect to desired conditions under the KEAs.The Nature Conservancy Contract Number: C07-032unpublishednot peer reviewedOpe

Waterbird and wetland monitoring at The Emiquon Preserve: Final report, 2007-2018

Historically, the wetlands of the Illinois River valley (IRV) provided extensive and valuable habitat to migrating waterbirds and other wetland-dependent wildlife in the Upper Midwest (Havera 1999). The Nature Conservancy’s Emiquon Preserve (2,700 ha) is a portion of a former floodplain of the Illinois River that was farmed for >80 years, isolated behind river levees, and has been undergoing restoration to a complex of wetlands and uplands since 2007. Since hydrology returned in 2007, we have monitored key ecological attributes (hereafter, KEAs) of specific biological characteristics or ecological processes related to waterbird communities and their habitats. Wetland vegetation communities and associated cover types have increased almost 700% since 2007, expanding from 255 ha to 2022 ha in fall 2016. Aquatic bed vegetation has comprised >50% of Emiquon Preserve since 2009, but important emergent plant communities have declined in recent years as the complex reached the lake marsh stage due to elevated and stabilized water levels (van der Valk and Davis 1978). Waterfowl and other waterbirds visit Emiquon Preserve in great numbers each fall and spring migration, with species such as American coot, northern pintail, green-winged teal, and gadwall selecting Emiquon compared to other wetlands and lakes in the IRV. The abundant aquatic bed and hemi-marsh plant communities collectively provide more food for waterbirds than do other nearby wetlands, such as the south pool of Chautauqua National Wildlife Refuge. Consistent with the >30 million energetic use days provided annually during 2013–2015 at Emiquon Preserve, dabbling and diving duck behaviors were dominated by feeding indicating the importance of the aquatic plant communities as foraging habitat. Emiquon also provides breeding habitat for species of conservation concern, such as common gallinule, black-crowned night herons, least bitterns, and American bitterns, as well as several species of ducks, geese, and swans. However, 3 we have noted recent declines in persistent emergent vegetation, moist-soil vegetation, brood counts which act as an index of waterbird productivity, duck use days during fall migration, and invertebrate abundance during brood-rearing periods, which we assume is related to the transition of Emiquon Preserve into the lake marsh stage. Consequently, Emiquon Preserve is currently undergoing an extensive drawdown to reverse declining trends in wetland health and corresponding waterbird use. Future monitoring will assess the effects of drawdown on emergent vegetation communities and the response of wildlife in the system.The Nature Conservancyunpublishednot peer reviewedOpe

A long‐term obesogenic high‐fat diet in mice partially dampens the anti‐frailty benefts of late‐life intermittent fasting

The global obesity pandemic coupled with ever-growing life expectancies equates to hundreds of millions of individuals with potentially longer but not healthier lives. Aging is one of the risk factors for numerous maladies such as metabolic dis- order and frailty, which are exacerbated under obesity. Thus, therapeutic approaches that address obesity to ultimately improve afected individuals’ quality of life and extend their lifespan are needed. We previously reported that the every other day (EOD) fasting initiated late-life improved metabolic, musculoskeletal, and cognitive endpoints in standard rodent diet-fed mice. In the present study, using the same dietary intervention methodology, we tested if 2.5 months of EOD fasting could improve metabolic, physiological, and cognitive endpoints in mice after an 18 month obesogenic high-fat diet (HFD). The positive efects of EOD fasting were generally consistent across the endpoints; EOD fasting decreased total body mass, maintained more %lean mass, improved glucose tol- erance and utilization, and improved neuromuscu- lar function. In contrast to our previous study, grip strength, hippocampal-dependent memory, and renal hydrogen sulfde (H2S) production were not improved by the HFD EOD fasting. Thus, efcacy for late- life initiated intermittent fasting to improve specifc frailty markers may be partially dependent on nutritional compositions of the diet

Waterbird and Wetland Monitoring at The Emiquon Preserve Annual Report 2016

The Nature Conservancy (TNC) identified key ecological attributes (hereafter, KEAs) of specific biological characteristics or ecological processes that could indicate restoration success and trajectory at the Emiquon Preserve (hereafter Emiquon; The Nature Conservancy 2006). Because of the historic importance of the Illinois River valley to waterfowl and other waterbirds, several conservation targets and associated KEAs at Emiquon were related to waterbird communities and their habitats (Appendix A). Inde ed, use of wetlands by waterbirds may serve as an indicator of landscape condition or a measure of restoration success (Austin et al. 2001, Gawlik 2006). Therefore, we monitored the response of wetland vegetation and waterbirds to restoration efforts at Emiquon during 2016 to evaluate restoration success relative to desired conditions under the relevant KEAs. Our primary efforts included evaluating: 1) abundance, diversity, and behavior of waterfowl and other waterbirds through autumn aerial counts and spring ground counts; 2) productivity by waterfowl and other waterbirds through brood counts and nest searches; 3) plant seed biomass to estimate energetic carrying capacity for waterfowl during autumn migration; 4) biomass of wetland plants and seeds emigrating from Emiquon through the water control structure; and 5) composition and arrangement of wetland vegetation communities and associated cover types through geospatial covermapping and soil properties in response to water management. Herein, we report results of our monitoring efforts and interpret them as a means of evaluating restoration activities at Emiquon with respect to desired conditions under the KEAs.The Nature Conservancy Contract Number: C07-032unpublishednot peer reviewedOpe

Waterbird and Wetland Monitoring at The Emiquon Preserve Final Report 2007-2009

We monitored the response of wetland habitats and waterbirds to restoration efforts at Emiquon during 2007–2010 to evaluate restoration success relative to desired conditions under the relevant key ecological attributes (KEAs). Our primary efforts included evaluating: 1) abundance, diversity, and behavior of waterfowl and other waterbirds through counts and observations; 2) productivity by waterfowl and other waterbirds through brood counts; 3) plant seed and invertebrate biomass to understand foraging carrying capacity for waterfowl during migration and breeding, and; 4) composition and arrangement of the vegetation community through geospatial wetland covermapping. Herein, we report results of our monitoring efforts and interpret them as a means of evaluating restoration activities at Emiquon with respect to desired conditions under the KEAs.The Nature Conservancy, Illinois River Project Office, contract number C07-032unpublishednot peer reviewedOpe

Waterbird and wetland monitoring at the Emiquon Preserve: Annual Report 2014

The Nature Conservancy (TNC) identified key ecological attributes (hereafter, KEAs) of specific biological characteristics or ecological processes that could indicate restoration success and trajectory at the Emiquon Preserve (hereafter Emiquon; The Nature Conservancy 2006). Because of the historic importance of the Illinois River valley to waterfowl and other waterbirds, several conservation targets and associated KEAs at Emiquon were related to waterbird communities and their habitats(Appendix A). Indeed, use of wetlands by waterbirds may serve as an indicator of landscape condition or a measure of restoration success (Austin et al. 2001,Gawlik 2006). Therefore, we monitored the response of wetland vegetation and waterbirds to restoration efforts at Emiquon during 2014to evaluate restoration success relative to desired conditions under the relevant KEAs. Our primary efforts included evaluating: 1) abundance, diversity, and behavior of waterfowl and other waterbirds through autumn aerial counts and spring ground counts; 2) productivity by waterfowl and other waterbirds through brood counts; 3) plant seed and invertebrate biomass to estimate energetic carrying capacity for waterfowl during migration and breeding periods;and 4) composition and arrangement of wetland vegetation communities and associated cover types through geospatial cover mapping.Herein, we report results of our monitoring efforts and interpret them as a means of evaluating restoration activities at Emiquon with respect to desired conditions under the KEAs.The Nature Conservancyunpublishednot peer reviewe