Your search keyword '"*MEADOWS"' showing total 8 results

1. Discussion: "Meadow Restoration Increases Baseflow and Groundwater Storage in the Sierra Nevada Mountains of California" by Luke J.H. Hunt, Julie Fair, and Maxwell Odland.

Author

Nash, Caroline S., Grant, Gordon E., Selker, John S., and Wondzell, Steven M.

Subjects

*MEADOWS, *WATERLOGGING (Soils), *GROUNDWATER, *STREAM measurements, *MOUNTAINS

Abstract

We discuss a recent paper which evaluated the hydrologic changes resulting from a pond‐and‐plug meadow restoration project in the Sierra Nevada Mountains of California. In the study, measurements of streamflow into and out of the meadow suggested late‐summer baseflow increased as much as five‐fold when compared with prerestoration conditions. However, the volume of streamflow attributed to the restored meadow (49,000–96,000 m3 over four months) would require that 2.5–4.8 m of saturated meadow soils drain during summer months. The groundwater data from this meadow record only 0.45 m of change over this timeframe, which is less than might be expected from plant use alone (0.75 m), suggesting this restored meadow may be acting as a water sink throughout summer rather than a source. [ABSTRACT FROM AUTHOR]

Published

2020

2. Stochastic population dynamics in populations of western terrestrial garter snakes with divergent life histories.

Author

Miller, David A., Clark, William R., Arnold, Stevan J., and Bronikowski, Anne M.

Subjects

*ANIMAL populations, *THAMNOPHIS elegans, *MOUNTAIN meadows, *EVOLUTIONARY theories

Abstract

Comparative evaluations of population dynamics in species with temporal and spatial variation in life-history traits are rare because they require long-term demographic time series from multiple populations. We present such an analysis using demographic data collected during the interval 1978-1996 for six populations of western terrestrial garter snakes (Thamnophis elegans) from two evolutionarily divergent ecotypes. Three replicate populations from a slow-living ecotype, found in mountain meadows of northeastern California, were characterized by individuals that develop slowly, mature late, reproduce infrequently with small reproductive effort, and live longer than individuals of three populations of a fast-living ecotype found at lakeshore locales. We constructed matrix population models for each of the populations based on 8-13 years of data per population and analyzed both deterministic dynamics based on mean annual vital rates and stochastic dynamics incorporating annual variation in vital rates. (1) Contributions of highly variable vital rates to fitness (?s) were buffered against the negative effects of stochastic variation, and this relationship was consistent with differences between the meadow (M-slow) and lakeshore (L-fast) ecotypes. (2) Annual variation in the proportion of gravid females had the greatest negative effect among all vital rates on ?s. The magnitude of variation in the proportion of gravid females and its effect on ?s was greater in M-slow than L-fast populations. (3) Variation in the proportion of gravid females, in turn, depended on annual variation in prey availability, and its effect on ?s was 4-23 times greater in M-slow than L-fast populations. In addition to differences in stochastic dynamics between ecotypes, we also found higher mean mortality rates across all age classes in the L-fast populations. Our results suggest that both deterministic and stochastic selective forces have affected the evolution of divergent life-history traits in the two ecotypes, which, in turn, affect population dynamics. M-slow populations have evolved life-history traits that buffer fitness against direct effects of variation in reproduction and that spread lifetime reproduction across a greater number of reproductive bouts. These results highlight the importance of long-term demographic and environmental monitoring and of incorporating temporal dynamics into empirical studies of life-history evolution. [ABSTRACT FROM AUTHOR]

Published

2011

3. Simulated Effects of Stream Restoration on the Distribution of Wet-Meadow Vegetation.

Author

Hammersmark, Christopher T., Dobrowski, Solomon Z., Rains, Mark C., and Mount, Jeffrey F.

Subjects

*STREAM restoration, *MEADOWS, *RESTORATION ecology, *GROUND vegetation cover, *HYDROLOGY, *HABITATS, *RIVER channels

Published

2010

4. N2O emission rates in a California meadow soil are influenced by fertilizer level, soil moisture and the community structure of ammonia-oxidizing bacteria.

Author

AVRAHAMI, SHARON and BOHANNAN, BRENDAN J. M.

Subjects

*NITROUS oxide & the environment, *EMISSIONS (Air pollution), *MEADOWS, *SOIL pollution research, *SOIL testing, *FERTILIZERS & the environment, *SOIL moisture, *BACTERIA

Abstract

The response of nitrous oxide (N2O) emission rates and β-proteobacterial ammonia-oxidizing (AOB) communities to manipulations of temperature, soil moisture and nitrogenous fertilizer concentration were studied for 16–20 weeks in a multifactorial laboratory experiment using a California meadow soil. Interactions among these three environmental factors influenced the N2O emission rates, and two patterns of N2O emission rates due to nitrification (NitN2O) were observed. First, in soils receiving low or moderate amounts of fertilizer, the rates decreased sharply in response to increasing soil moisture and temperature. Second, in soils receiving high amounts of fertilizer, the rates were influenced by an interaction between soil moisture and temperature, such that at 20 °C increasing soil moisture resulted in an increase in the rates, and at 30 °C the highest rate was observed at moderate soil moisture. We used path analysis to identify the interrelationships that best explain these two patterns. Path analysis revealed that in the high fertilizer (HF) treatment, the major path by which ammonia influenced NitN2O rates was indirect through an influence on the abundance of one particular phylogenetic group (AOB ‘cluster 10’). In contrast, in the low and moderate fertilizer treatments soil moisture influenced the rates both directly (the major path) and indirectly through AOB community structure. Although terminal restriction fragment length polymorphism (T-RFLP) analysis revealed shifts in the community structure of AOB in all treatments, the shifts at HF concentrations were particularly striking, with dominance by three different phylogenetic groups under different combinations of the three environmental factors. The high emission rates observed at the lowest soil moistures suggest that bacterial nitrifiers may use denitrification as a stress response. [ABSTRACT FROM AUTHOR]

Published

2009

5. Reply to Discussion: "Meadow Restoration Increases Base Flow and Groundwater Storage in the Sierra Nevada Mountains of California".

Author

Hunt, Luke J.H., Fair, Julie, and Odland, Maxwell

Subjects

*GROUNDWATER flow, *WETLAND restoration, *MEADOWS, *STREAMFLOW, *MOUNTAINS, *DROUGHT forecasting, *GROUNDWATER, *WELLS

Abstract

In the Discussion, Nash et al. (2019) estimate the seasonal change in groundwater volume for a portion of the restored Sierra Nevada Meadow that we evaluated (Hunt et al. 2018) and use this estimate as an upper bound on the possible contribution to flow that is attributable to restoration. The authors conclude that raising the channel bed elevation and reconnecting the meadow floodplain most likely reduced summer streamflow. In contrast, we report at least a fivefold increase in baseflow from the meadow in the years following restoration. In addition, we observed that, after restoration, the previously intermittent stream below the meadow flowed continuously throughout the summer months, despite record drought conditions, and in 2015, the lowest snowpack on record. We suggest that the groundwater budget presented in the Discussion may not adequately represent conditions within the meadow because the authors extrapolate from 5 near‐channel groundwater wells across 62 ha of meadow and assume an area of influence that is approximately one‐sixth of the meadow area. We conclude that the conversion of an intermittent stream to perennial flow during drought conditions is a stronger check on our gauge data than the groundwater budget presented in the Discussion. [ABSTRACT FROM AUTHOR]

Published

2020

6. Decline in alkali meadow vegetation cover in California: the effects of groundwater extraction and drought.

Author

Elmore, Andrew J., Manning, Sara J., Mustard, John F., and Craine, Joseph M.

Subjects

*MEADOWS, *GROUNDWATER, *PLANT communities, *METEOROLOGICAL precipitation, *EFFECT of drought on plants, *PERENNIALS, *VEGETATION management, *APPLIED ecology

Abstract

1. Throughout arid regions of the world, groundwater is extracted for human population centres. In the Great Basin and Range region of the USA, we lack basic information regarding some plant communities detailing the extent to which vegetation is threatened by groundwater extraction. This is particularly true for alkali meadow vegetation, which is restricted to zones of shallow groundwater yet is not a riparian plant community with obligate wetland properties. 2. To increase our understanding of the relative importance of groundwater and precipitation in maintaining alkali meadow vegetation cover, we used a 16-year record of plant cover derived from satellite data of Owens Valley, California, USA, in conjunction with concurrent depth-to-water and precipitation measurements, to analyse vegetation response to anthropogenic and climatic changes in water availability. 3. Groundwater decline varied from 0·5 to 5·0 m throughout the study area, with the largest changes occurring at sites closest to pumping wells. The entire region experienced a 6-year drought (1987–92), during which annual precipitation remained below the 50-year median. 4. Meadow plant cover over the 16-year study period was correlated with groundwater depth, but plant cover was generally unresponsive to annual precipitation variability. Sensitivity to groundwater decline was greatest for plots with a higher cover of herbaceous perennials. 5. The results showed that this plant community is groundwater dependent, and that this characteristic buffers the system from the effects of drought. However, at sites with extensive groundwater decline, the remaining plant cover became weakly correlated with precipitation only after groundwater declined below a threshold depth located at 2·5 m, representing the average plant rooting depth. 6. Synthesis and applications. Sustainable water development that seeks to pump groundwater without adversely affecting vegetation cover and plant assemblages must recognize the maximum rooting depth of groundwater-dependent plant species. When groundwater is within the root zone, management decisions can be made to either increase or decrease vegetation cover through modification of groundwater depth. When groundwater is below the root zone, vegetation cover is low and susceptible to changes in precipitation. Quantitative satellite measurements of vegetation cover might aid the monitoring and sustainable management of water resources. [ABSTRACT FROM AUTHOR]

Published

2006

7. Influence of Mammal Activity on Nesting Success of Passerines.

Author

Cain III, James W., Smallwood, K. Shawn, Morrison, Michael L., and Loffland, Helen L.

Subjects

*PASSERIFORMES, *YELLOW warbler, *WILLOW flycatcher, *NESTS, *PREDATION, *MAMMAL behavior

Abstract

For many avian species, predation is the leading cause of nest failure. However, relationships between predator abundance and nest predation often differ across spatial scales. We examined the relationship between environmental characteristics in meadows and mammalian predator activity, the relationship between predator activity at 2 spatial scales, and the probability of nest predation of willow flycatchers (Empidonax traillii), dusky flycatchers (Empidonax oberholseri), and yellow warblers (Dendroica petechia) in the central Sierra Nevada Mountains, California, USA. Environmental characteristics associated with the detection of nest predators varied depending on species. Douglas's squirrel (Tamiasciurus douglasii) and chipmunks (Tamias spp.) were associated with characteristics common along edges of meadows; short-tailed weasels (Mustela erminea) were associated with willows, whereas mice (Peromyscus maniculatus, Reithrodontomys megalotis, and Microtus spp.) and long-tailed weasels (Mustela frenata) were distributed throughout the meadows. The probability of predation of willow and dusky flycatcher nests increased with increasing short-tailed weasel activity, and the probability of predation of yellow warbler nests increased with increasing activity of chipmunks and short-tailed weasels. Variation in the occurrence of predator species in different areas of the meadows likely influences the probability of nest predation by each species and the nesting success of birds. Identifying factors that influence the distribution and abundance of common nest predators will likely be integral to the development of conservation efforts to increase the reproductive success of some bird species. [ABSTRACT FROM AUTHOR]

Published

2006

8. Effects of experimental soil disturbance on revegetation by natives and exotics in coastal Californian meadows.

Author

Kotanen, Peter M.

Subjects

*SOIL conservation, *MEADOWS, *REVEGETATION, *GRASSES, *VEGETATION management

Abstract

1. Disturbance is widely believed to facilitate invasions by exotic plants but is also important for the persistence of many native species. Here I report the results of a series of field experiments designed to investigate the effects of soil disturbance on natives and aliens in Californian grassland vegetation. I also compare the effects of different types of soil disturbance to establish whether some favour aliens to a greater degree than others. 2. In two experiments, conducted at different locations. three types of soil disturbance (excavation burial and simulated gopher mounds) were created, and their revegetation was compared with changes in undisturbed control plots over the next three years. A third experiment was used to provide data on the effects of soil disturbance on soil temperature moisture and KCI-extractable nitrogen 3. Disturbance affected both soil temperature and chemistry. Buried plots contained the most KCI-extractable nitrogen, and were also the warmest. Effects on soil moisture were relatively small. 4. Initially, most disturbances greatly reduced the numerical abundance both of groups dominated by natives (perennial graminoids and bulbs) and of groups dominated by aliens (annual grarminoids Disturbance also reduced maximal (summer) species richness but in some cases increased the fraction of richness contributed by natives. 5. In subsequent years richness rebounded as natives and exotics re-invaded. Native bulbs and perennial grarminoids were slow to recover instead, most disturbances increasingly became numerically dominated by exotic annual grasses, accentuating the effects of a multi-year drought. 6. The differing effects of experimental disturbances on aliens and natives can best he explained by considering relationships between sources of propagules life histories and geographical origins. 7. Some types of disturbance were less damaging to native-dominated groups than others, but most ultimately favoured exotic. Consequently, it may be difficult to develop management strategies that preserve the diversity of disturbance-dependent natives while still excluding weedy aliens. [ABSTRACT FROM AUTHOR]

Published

1997