Spatial extent, timing, and causes of channel incision, Black Vermillion watershed, northeastern Kansas

Meade, Benjamin K.

January 1900

Master of Arts / Department of Geography / Richard A. Marston / The Black Vermillion River (watershed area = 1310 square kilometers) contributes runoff and sediment into Tuttle Creek Reservoir, a large federal reservoir (volume = 327 million cubic meters) northeast of Manhattan, Kansas. Tuttle Creek, completed in 1962, is filling with sediment faster than other federal reservoirs in the region. The Reservoir’s conservation pool is about 40 percent full of sediment and is predicted to fill by 2023. Debate rages over the relative contribution of sediment from upland sources (largely croplands and pasture) versus channel incision. In the Black Vermillion watershed, bedrock is overlain in most of the watershed by pre-Illinoian age easily erodible glacial till and loess. Row crop agriculture is the most common land use in the watershed and stream channels are incised and prone to frequent flooding and channel instability. This research focused on the spatial extent, timing, and causes of channel incision in the Black Vermillion watershed. I conducted a watershed-wide survey of channel cross-sections in 56 locations repeated at sites that had been surveyed 45 years ago by the Soil Conservation Service. Further, I collected channel cross sections in 2008 at a total of 51 more locations for a total of 107 study sites. Channel depths between 1963 and 2008 increased by a mean of 1.6 meters (maximum = 5.2 meters). Most channels throughout the watershed have incised, are actively incising, or incising and widening. Statistical testing between channel depths as measured in 1963 and 2008 showed that the amount of incision was related to land use/land cover, riparian buffer widths, upstream drainage area, and geology. As channels incise, they progress through six stages of channel evolution, which complicates the relationship between channelization and incision. Channel stage, as identified in the field, was statistically related to geology, occurrence and timing of channelization, land use/land cover, and upstream drainage area. Channelization has reduced channel length by a significant portion and was identified as one of the leading causes of incision. This finding suggests that planting buffers and/or expanding existing buffers along streams should be encouraged in the watershed to alleviate flooding and channel instability.

channel incision

agricultural streams

Black Vermillion River

channel instability

channelization

Kansas rivers

Geography (0366)

Geology (0372)

Physical Geography (0368)

Sustainability and biodiversity: the impact, alternative design and prospects of restoration of channelized lowlandstreams in Hong Kong

Chan, Pui-lok, Bosco., 陳輩樂.

January 2001

published_or_final_version / Real Estate and Construction / Doctoral / Doctor of Philosophy

Stream ecology - China - Hong Kong.

Stream channelization effects on fish abundance and species composition

Johansson, Ulf

January 2013

Streams are important habitats, providing shelter and feeding opportunities for a wide range of organisms. The species depending on running waters includes a wide array of fish species, using these waters for their whole or parts of their lifecycle. Streams are also the subject of different anthropogenic impact, e.g. hydropower development. Hydropower development usually means lost connectivity, altered flow regimes and channelization. Channelization is one of the major factors causing stream habitat loss and degradation and thereby a threat to biodiversity of running waters. In the present study, the ecological impact of channelization on the fish fauna along a gradient of channelization severeness was examined. Besides channelization, stream velocity and depth were taken in to account. The study was carried out in two adjacent nemoboreal streams, Gavleån and Testeboån. The study was conducted between the 6th of June and the 10th of October 2012 at 15 sites. Sites were selected using historical maps and field observations and graded 0-3 depending on the degree of channelization. Fish community were sampled with, Nordic multi-mesh Stream Survey Net (NSSN). In all, 1.465 fish were captured, representing 15 species and seven families. The sites differed in species richness, abundance and proportion of individuals. Based on the results from rarefaction curves and ANOVA, channelization was found to be the main factor affecting the fish biota, both in abundance as well as species richness and composition. In general the rheophilic species declined along the gradient of increasing channelization severeness, while limnophilic species increased

Channelization

Rheophilic species

nemoboreal streams

Nordic multi-mesh Stream Survey Net

lotic

relative abundance

fish community

limnophilic

A New Approach For Distributed Amplifier Design

Yilmaz, Ismail Gokhan

01 September 2012

In this thesis work, a new distributed amplifier topology is discussed and applied to three different cases. The topology is based on dividing the frequency spectrum into channels and amplifying afterwards. The channelized and amplified signals are then combined at the output for broadband amplification. This topology is used in the design of a three channel 0.1-1 GHz amplifier with a gain of 14.5&plusmn / 0.6 dB. The design is fabricated, and then the measured and simulated results are compared. A second 0.1-1 GHz amplifier with 21&plusmn / 1 dB is designed in simulation environment with five channels. This five channel amplifier is fabricated and measured results are compared with the simulated ones. A 1-6 GHz three channel amplifier is also designed with a gain of 10.5&plusmn / 0.5 dB. Application of the proposed topology to three different designs shows promising results for future amplifier designs.

Distributed estimation in wireless sensor networks under a semi-orthogonal multiple access technique

2014 September 1900

This thesis is concerned with distributed estimation in a wireless sensor network (WSN) with analog transmission. For a scenario in which a large number of sensors are deployed under a limited bandwidth constraint, a semi-orthogonal multiple-access channelization (MAC) approach is proposed to provide transmission of observations from K sensors to a fusion center (FC) via N orthogonal channels, where K≥N. The proposed semi-orthogonal MAC can be implemented with either fixed sensor grouping or adaptive sensor grouping. The mean squared error (MSE) is adopted as the performance criterion and it is first studied under equal power allocation. The MSE can be expressed in terms of two indicators: the channel noise suppression capability and the observation noise suppression capability. The fixed version of the semi-orthogonal MAC is shown to have the same channel noise suppression capability and two times the observation noise suppression capability when compared to the orthogonal MAC under the same bandwidth resource. For the adaptive version, the performance improvement of the semi-orthogonal MAC over the orthogonal MAC is even more significant. In fact, the semi-orthogonal MAC with adaptive sensor grouping is shown to perform very close to that of the hybrid MAC, while requiring a much smaller amount of feedback. Another contribution of this thesis is an analysis of the behavior of the average MSE in terms of the number of sensors, namely the scaling law, under equal power allocation. It is shown that the proposed semi-orthogonal MAC with adaptive sensor grouping can achieve the optimal scaling law of the analog WSN studied in this thesis. Finally, improved power allocations for the proposed semi-orthogonal MAC are investigated. First, the improved power allocations in each sensor group for different scenarios are provided. Then an optimal solution of power allocation among sensor groups is obtained by the convex optimization theory, and shown to outperform equal power allocation. The issue of balancing between the performance improvement and extra feedback required by the improved power allocation is also thoroughly discussed.

Wireless sensor network

distributed estimation

multiple access channelization

semi-orthogonal

mean square error

scaling law

power allocation

The application of a two-dimensional sediment transport model in a Cumberland Plateau mountainous stream reach with complex morphology and coarse substrate

Johnson, Daniel Hale.

January 2008

Thesis (M.S.)--University of Tennessee, Knoxville, 2008. / Title from title page screen (viewed on Sept. 23, 2009). Thesis advisor: John S. Schwartz. Vita. Includes bibliographical references.

Parameterizable Channelized Wideband Digital Receiver for High Update Rate

Buxa, Peter E.

30 July 2007

No description available.

Wideband Receiver

Digital Receiver

Electronic Warfare Receiver

Hardware-Based FFT

Polyphase DFT

Frequency Domain Decimation

Frequency Channelization

FFT

An Analysis of Planform Changes of the Upper Hocking River,Southeastern Ohio, 1939-2013

Wehrmann, Zachary M.

17 September 2015

No description available.

Earth

Geography

Geomorphology

Physical Geography

Water Resource Management

geomorphology

rivers

meandering

channel planform

GIS

riparian vegetation

channelization

flood events

Front End Circuit Module Designs for A Digitally Controlled Channelized SDR Receiver Architecture

Gong, Fei

19 December 2011

No description available.

Electrical Engineering

Software Defined Radio (SDR)

Channelization

Ultra-Wideband (UWB)

Link-Budget

Low Noise Amplifier (LNA)

Mixer

Quadrature Coupler

Kanalisering och restaurering av vattendrag och dess påverkan på mossamhällen i strandzonen / Effect of channelization and restoration in streams on bryophyte communities in the riparian zone

Knudsen, Carola

January 2019

In the 1850s when the timber floating began in Sweden many streams were channelized, which meant that the streams were straightened out, side channels were closed, and stones, trees and boulders were moved out to the banks of the streams. These measures altered the morphology of the streams, causing impediments to water moving in from the stream to the riparian zone, and reduced flooding frequency. When the era of timber floating was over humans began to restore the channelized streams to restore the damaged systems, mainly to improve fish habitats. Channelization and restoration involve major disruptions to the stream ecosystem, and the purpose of this study was to investigate how the bryophyte communities in the riparian zone differed in diversity, species richness and areal coverage, depending on the form of disturbance they were exposed to and the time passed since the disturbance occurred. This study was conducted along tributaries to the Vindel River in northern Sweden. There were three types of tributaries: partly channelized streams, best-practice restored streams and demonstration restored streams. At all tributaries included in the study, bryophyte samples were collected at two heights from the water surface, 0 and 40 cm. These samples were then identified to family or species level and their areal coverage was estimated. The results show that the demonstration restored streams had the lowest species richness and, there were no significant differences in diversity and species richness between the channelized streams and the best-practice restored streams. Regarding areal coverage, there was no significant difference between the stream types. The results also show that the time plays an important role for recovery of the bryophyte communities since diversity and species richness increased with the time since the disturbance occurred. / Under 1850-talet då flottning av timmer påbörjades i Sverige startade kanaliseringen av många vattendrag, vilket innebar att vattendragen rätades ut, sidokanaler stängdes, och stenar, träd och stenblock flyttades ut till vattendragens kanter. Dessa åtgärder förändrade vattendragens morfologi, orsakade fördämningar mellan vatten och strandzon och minskade översvämningsfrekvensen. När timmerflottningens era var slut började människan restaurera de kanaliserade vattendragen, främst för att det visat sig att fisket försämrats. Kanalisering och restaurering innebär stora störningar för ekosystemet de utförs i och denna studie syftar till att titta hur mossamhällen i strandzonen skiljer sig åt i diversitet, artrikedom och täckning beroende på vilken form av störning de utsatts för och tiden sedan de utsattes för störningen. Studien är gjord längs biflöden till Vindelälven i norra Sverige. Biflödena är dels kanaliserade vattendrag, bästa-praxis restaurerade vattendrag och demonstrationsåtgärdade vattendrag. Vid samtliga sträckor som ingår i studien har mossprover samlats in på två höjder från vattenytan, 0 och 40 centimeter. Dessa prover har sedan identifierats till lägsta möjliga taxonomiska nivå (art eller familj), och deras täckningsgrad har uppskattats. Resultaten visade att de demonstrationsåtgärdade vattendragen hade lägst artrikedom och diversitet och mellan kanaliserade vattendrag och bästa-praxis vattendrag kunde ingen signifikant skillnad i diversitet eller artrikedom påvisas.  Gällande täckningsgraden fanns ingen signifikant skillnad mellan vattendragstyperna. Resultatet visade också att tiden spelar en viktig roll för återhämtningen hos mossamhällena då artrikedom och diversitet ökar med tiden sedan inträffad störning.

Bryophytes

liverworths

mosses

channelization

restoration

stream ecosystem

bryophyte communities

riparian zone

Mossa

mossor

kanaliserade vattendrag

restaurering

mossamhällen

sötvattensekosystem

levermossor

strandzonen

Biological Sciences

Biologiska vetenskaper