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The effect of grazing by gastropods on vegetation dynamics in early secondary successionGillman, Michael Philip January 1987 (has links)
No description available.
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Sources and distribution of calcium, magnesium, potassium and sodium in grazed and ungrazed grasslands, Moor House N.N.R., Cumbria, EnglandUlmanis, Gunars A. January 1982 (has links)
No description available.
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Effects of strip versus continuous grazing management on diet parameters and performance of yearling steers grazing native flood meadow vegetation in eastern OregonBlount, David Kenneth 23 May 1990 (has links)
A trial was conducted May 1 to September 4, 1989 at the Eastern
Oregon Agricultural Research Center (EOARC) Burns, OR to examine the
effects of strip or continuous grazing management on the diet and
performance of steers grazing native flood meadows. The objective was
to determine if strip grazing would be a more efficient means of
grazing management than continuous grazing.
The experiment was designed to test diet quality, botanical
composition of the diet, daily dry matter (DM) intake and performance
of yearling steers. Eighty yearling steers weighing 253±17 kg were
selected from cattle at the Squaw Butte Experiment Station. The
experimental design was a randomized complete block, with blocking
based on past forage production. Treatments were continuous or strip
grazing. A representative meadow of approximately 22.4 ha was divided
into four equal pastures. Continuous grazing steers had access to 5.6
ha pastures for the duration of the study. Animals on strip grazing
were confined to an area that was estimated to provide 5-7 days of
forage using New Zealand portable electric fencing. Strip sizes were
predetermined based on standing forage crop. Steers were not allowed
to graze more than 7 days in any one strip. Diet quality was estimated
from bi-weekly esophageal samples. Extrusa was collected from 4
esophageal fistulated steers per treatment on two consecutive days.
Collections were timed to coincide with the mid point of the strip
being currently grazed. Samples were pooled by collection dates and
analyzed for CP and IVOMD. Dietary OM intake was estimated from biweekly,
24 hr total fecal collections starting the day following
esophageal collections. Total DM fecal output from 6 fecal collection
steers per treatment was corrected with the %IVOMD to predict actual DM
intake. Diet botanical composition was estimated by microhistological
examination of fecal sub-samples. Animal weight gains were recorded
bi-weekly. Experimental animals grazed together at all times during
the trial. Initial stocking densities were 2.0 AU/ha in each treatment
pasture. Steers were counted as .56 AU with 20 steers grazing 5.6 ha
pastures. The average strip size over the trial was .46 ha; and
depending upon standing crop of forage, ranged from .23-1.15 ha.
Record moisture from snowmelt and rainfall resulted in greater than
expected standing crop of forage. This growth resulted in under
stocking of both treatment pastures. A 1.08 ha block was removed as
hay from the higher forage producing strip treatment block to adjust
for over abundant forage. This resulted in a total mean strip grazed
area of 4.37 ha or 22% less than continuous grazing. Actual grazing
density means over the summer were 2.6 AU/ha for continuous and 3.15
AU/ha for the strip treatment. Available forage was determined from
clipped plots on a DM basis and expressed as herbage allowance at a
given point in time. Herbage allowance for steers in continuous grazed
pastures ranged from 405-1153 kg/AU when measured at bi-weekly
intervals and 68-186 kg/AU for strip grazed steers when estimated at
the beginning of each strip. Grazing pressure was higher for strip
grazed steers (.10 AU/kg) compared to continuous (.02 AU/kg). Diet
quality declined significantly over the summer (P<.01). Analysis for
CP in steer diets provided values of 13.9 vs 10.9% for continuous and
strip treatments, respectively. However, this difference was not
significant (P=.14). Digestibility analysis suggested that forage in
continuous diets tended (P=.07) to have higher IVOMD than strip diets
(64.6 vs 60.7%), respectively. Daily herbage intake was similar
(P=.42) for both treatments when expressed as a percentage of body
weight. Diet botanical composition was positively affected by the type
of management system. The amount of the major grass species, meadow
foxtail (Alopecurus pratensjs), was increased (P=.05) 39% in the diet
of strip grazing steers. Differences were noted in the amounts of
other, less frequently occurring grass species. The total amount of
grass tended (P=.06) to be higher in strip diets (49% vs 35% for
continuous). Rushes (Juncus spp.) and sedges (Carex spp.) contributed
a similar percentage to the diets of both treatments. Forbs comprised
less than .5% of the overall diet of both strip and continuous steers.
Individual animal performance tended (P=.09) to be higher under
continuous grazing management. The ADG was 1.16 and .77 kg for steers
in continuous and strip grazing, respectively. However, total animal
production per hectare grazed area (26.14 vs 22.13 kg/hd) was not
considered different (P=.17). / Graduation date: 1991
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Influence of stocking density on grazing beef cattle performance, diet composition foraging efficiency, and diet quality on a late-spring early-summer native bunchgrass prairie /Wyffels, Samuel A. January 1900 (has links)
Thesis (M.S.)--Oregon State University, 2010. / Printout. Includes bibliographical references (leaves 56-61). Also available on the World Wide Web.
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Effects of grazing management and pasture composition on the nitrogen dynamics of a dairy farm : a simulation analysis : a thesis submitted in partial fulfilment of the requirements for the degree of Doctor of Philosophy at Lincoln University /Bates, Andrew John. January 2009 (has links)
Thesis (Ph. D.) -- Lincoln University, 2009. / Also available via the World Wide Web.
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Untersuchungen über die entwicklung und kultur des grünlandes im Siegener lande ...Grisse, Ernst, January 1925 (has links)
Inaug.-diss.--Giessen. / Lebenslauf. "Literaturverzeichnis": p. 86.
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Behavior and grazing preference of fistulated steers on a desert grasslandZemo, Tesfay, 1941- January 1968 (has links)
No description available.
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Summary of investigations dealing with burroweed (Aplopappus fruticosus) and its ecological aspectsVoth, Arnold, 1906- January 1938 (has links)
No description available.
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Nutrient and Grazing Control of Estuarine Phytoplankton Growth and Community CompositionCira, Emily 16 December 2013 (has links)
Estuarine phytoplankton growth is often controlled by nitrogen availability. In addition to overall nitrogen loads, nitrogen form (organic vs. inorganic) is an important factor affecting estuarine phytoplankton growth and community composition. Recent studies have shown that in addition to nitrogen availability, trophic cascades and relaxation of grazing pressure may also be important for phytoplankton bloom formation in estuaries.
With a goal of better understanding how nitrogen availability and grazing pressure interact to control estuarine phytoplankton growth and community composition, we examined the individualistic as well as the combined effects of nitrogen (varying availability and form) and grazing pressure on estuarine phytoplankton growth and community composition in the Neuse River Estuary, North Carolina, USA. During each of three sampling events (June 2011, August 2011, March 2012) natural phytoplankton assemblages were manipulated with added nitrogen (as urea or nitrate) and reduced grazing pressure (by filtering out zooplankton grazers). Treatments were incubated for 48 hours in an experimental pond, and subsamples taken daily to assess phytoplankton growth responses to treatments through chlorophyll a, diagnostic photopigments and cell enumerations.
The effects of nitrogen additions and reduced grazing pressure varied throughout the events. In June, only nitrogen addition stimulated phytoplankton community growth (chlorophyll a), while in August, only grazing reduction had a significant impact on community growth. Neither treatment had a significant effect on community growth in March, as the phytoplankton community faced phosphorus-limitation and decreased grazing pressure associated with cooler winter/spring temperatures. While both treatments did not continuously effect overall phytoplankton growth throughout all experiments, there were always effects seen in some diagnostic photopigments, indicating varying taxa-specific responses to treatments throughout the year, which can be explained by shifts in phytoplankton community composition and environmental factors.
These results demonstrate the importance of both bottom-up (nutrient availability and form) and top-down (grazing) controls in a temperate, eutrophic estuary. Results also hint at the potential for other factors (i.e. light and phosphorus-limitation) to play a role in phytoplankton growth as well. Phytoplankton growth, biomass and community dynamics are relevant indicators of environmental change and this study highlights the need to consider the potential interactive effects of controlling factors for proper management of estuarine ecosystems.
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Effects of cattle grazing intensity on vegetation structure, heterogeneity and plant diversity in a northern mixed-grass prairieLwiwski, Tonya 04 July 2013 (has links)
Re-introducing heterogeneity to native North American rangelands is imperative to maintaining grassland biodiversity, and it has been suggested that using a variety of cattle grazing intensities on the landscape could accomplish this. I used generalized linear mixed models to describe the effects of grazing intensity on vegetation structure, plant species diversity and plant communities over four years. I used the Mantel test and non-metric multidimensional scaling to illustrate changes in plant communities with varying grazing intensities and over time. Effects of grazing were cumulative and changed over time, upland and lowland habitats responded differently to grazing intensity, and heterogeneity was maximized at the landscape scale under a variety of grazing intensities. When conservation is the primary goal, a variety of grazing intensities on the landscape can be used to increase heterogeneity, and therefore grassland biodiversity.
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