Michael L. Morrison

Flows for Floodplain Forests: A Successful Riparian Restoration

Abstract Throughout the 20th century, the Truckee River that flows from Lake Tahoe into the Nevada desert was progressively dammed and dewatered, which led to the collapse of its aquatic and riparian ecosystems. The federal designation of the endemic cui-ui sucker (Chasmistes cujus) as endangered prompted a restoration program in the 1980s aimed at increasing spring flows to permit fish spawning. These flows did promote cui-ui reproduction, as well as an unanticipated benefit, the extensive seedling recruitment of Fremont cottonwood (Populus fremontii) and sandbar willow (Salix exigua). Recruitment was scattered in 1983 but extensive in 1987, when the hydrograph satisfied the riparian recruitment box model that had been developed for other rivers. That model was subsequently applied to develop flow prescriptions that were implemented from 1995 through 2000 and enabled further seedling establishment. The woodland recovery produced broad ecosystem benefits, as evidenced by the return by 1998 of 10 of 19 riparian bird species whose populations had been locally extirpated or had declined severely between 1868 and 1980. The dramatic partial recovery along this severely degraded desert river offers promise that the use of instream flow regulation can promote ecosystem restoration along other dammed rivers worldwide.

Short-term understory plant community responses to timber-harvesting intensity on non-industrial private forestlands in Pennsylvania

Understanding harvesting impacts on non-industrial private forestlands is important, since they represent 75% of all commercial forestlands in the State of Pennsylvania, as well as a large percentage of most of the eastern United States. This study measured species composition, richness, and diversity of herb- and shrub-layer plant communities on a total of 40 non-industrial private forest stands in northeastern Pennsylvania. These northern hardwood and oak–hickory stands had been recently harvested at different intensities. Remaining basal area was used as an indicator of harvest intensity. Species richness and diversity were not significantly related to basal area for summer or vernal herb understory plant communities for either forest type, although there was some evidence of a weak negative relationship between plant species richness and remaining basal area on more intensively harvested northern hardwood stands. Summer plant-species richness and diversity were related to percent litter cover and percent slope on northern hardwood stands, and percent Vaccinium cover and percent slope on oak–hickory stands. Ground- and shrub-layer cover significantly increased with increasing harvest intensity. Species composition of vernal herb communities did not vary in stands with differing amounts of basal area. Species composition of summer forest-floor communities differed with amount of basal area remaining, but only for northern hardwood stands. Shade-intolerant ruderal species dominated northern hardwood stands with low basal area, while more shade-tolerant plants dominated northern hardwood stands with high basal area. Summer plant understories of northern hardwood stands were generally dominated by fern and/or Rubus spp. (blackberry and raspberry), while oak–hickory stands were dominated by Vaccinium (blueberry) species. Litter cover, Vaccinium cover, fern cover, total ground cover, and forest type were significant variables related to species composition of vernal herb communities. Based on these results, forest landowners in this region should not expect significant short-term changes in vernal herbaceous or summer understory plant richness or diversity on their lands, regardless of the intensity of logging. However, short-term changes in vegetation structure (increased growth of forest-floor and shrub layers) should be expected for both oak–hickory and northern hardwood stands and a slight shift in species composition should be anticipated with intensive harvesting of northern hardwood stands.

BEHAVIOR OF RED-TAILED HAWKS IN A WIND TURBINE DEVELOPMENT

Abstract Birds flying within windfarms can be killed when they collide with wind turbines. Raptors, especially red-tailed hawks (Buteo jamaicensis), are more susceptible to collisions than other birds, which may be attributable to their specific foraging and flight behavior. To more fully understand the problem, and to reduce raptor mortality, it is necessary to acquire more information on habitat use and flight behavior by raptors inhabiting windfarms. Between June 1999 and June 2000, we watched raptors for 346 hours in the Altamont Pass Wind Resource Area, the largest windfarm in North America. We recorded flight behavior in relation to characteristics of the topography such as slope aspect, elevation, and inclination and in relation to various weather variables including wind speed and wind direction. We found that red-tailed hawk behavior and their use of slope aspect differed according to wind speed. Hawks perched more often in weak winds than in strong. Red-tailed hawks were more likely to soar during low wind conditions and kite during strong wind, particularly on hillsides that faced into the wind as opposed to hillsides shielded from the wind. This is likely a result of their use of deflection updrafts for lift during flight. During our study, when winds were strong and from the south–southwest, kiting behavior occurred on south–southwestern facing slopes with inclines of greater than 20% and peak elevations greater than adjacent slopes. Accordingly, mitigation measures to decrease red-tailed hawk fatalities should be directed specifically to these areas and others fitting this general model. Wind farm managers can power down turbines at the top of these hazardous slopes when they pose the greatest danger—when winds are strong and facing perpendicularly to the slope.

Influence of Mammal Activity on Nesting Success of Passerines

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. Douglass 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.

Development of a Practical Modeling Framework for Estimating the Impact of Wind Technology on Bird Populations

One of the most pressing environmental concerns related to wind project development is the potential for avian fatalities caused by the turbines. The goal of this project is to develop a useful, practical modeling framework for evaluating potential wind power plant impacts that can be generalized to most bird species. This modeling framework could be used to get a preliminary understanding of the likelihood of significant impacts to birds, in a cost-effective way. The authors accomplish this by (1) reviewing the major factors that can influence the persistence of a wild population; (2) briefly reviewing various models that can aid in estimating population status and trend, including methods of evaluating model structure and performance; (3) reviewing survivorship and population projections; and (4) developing a framework for using models to evaluate the potential impacts of wind development on birds.

Monitoring the dispersal of contaminants by wildlife at nuclear weapons production and waste storage facilities

Professor of wildlife biology in the department of biological sciences, California State University. Dr K. Shawn Smallwood is a systems ecologist and may be contacted at 109 Luz Place, Davis, CA 95616, USA. Dr Jan Beyea is a physical scientist with Consulting in the Public Interest, 53 Clinton Street, Lambertville, NJ 08530, USA. The US Government produced and acquired approximately 111 t of plutonium in support of its nuclear weapons programme. Verified reports of the loss of nuclear material into the environment, including loss by animals, has raised questions regarding the monitoring programmes in place on the nuclear facilities. Given these concerns regarding the fate of stored nuclear waste, the authors conducted a review of the wildlife monitoring programme used at nuclear weapons and storage facilities by (1) reviewing the key facets of the monitoring used at the facilities, (2) evaluating published and unpublished data from the facilities and (3) incorporating data from personal site visits. The study concentrated on the Department of Energys Hanford Reservation in rural south–central Washington and the Rocky Flats Plant in central Colorado. Based on the review, it is concluded that an improved and rigorous environmental surveillance and monitoring programme is needed at both locations. The site surveys identified frequent instances of intrusion into burial sites by animals, most of which had gone unreported by Hanford and Rocky Flats personnel. It was apparent that a significant source of potential contamination was not being adequately monitored at the nuclear waste sites. It is recommended that the development of a systematic, well-planned programme of monitoring animal intrusion on burial sites be considered, coupled with improved training for responsible personnel.