Science Spotlight

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  • December 9, 2021
Bird on a tree branch

California is home to more native animal and plant species than any other state in the nation. It also hosts the most endemic species—species that occur nowhere else in the world. However, our incredibly diverse native wildlife is facing an intensifying array of stressors stemming from human activity: habitat loss, new land uses like cannabis cultivation, invasive species, wildfires, drought and so many others. Wildlife managers can mitigate these threats through actions like conserving and restoring habitat, building relationships with private landowners and managing ecosystems for resilience to wildfire and climate change. But, to effectively target management actions, managers need to have high-quality information on wildlife populations across the state.

In two studies recently published in the California Fish and Wildlife Journal, Vol. 107-2 (PDF), researchers with CDFW’s Cannabis Program and Wildlife Diversity Program focused on this need for effective wildlife data collection.

One study focused on monitoring small terrestrial vertebrates, like small mammals, reptiles and amphibians. Traditionally, researchers have monitored these species through live-trapping and visual encounter surveys. But such time-intensive methods are not always feasible. Recently developed methods that use automatic cameras are one alternative. To determine how well cameras perform compared to more traditional methods, CDFW researchers tested two methods alongside each other: 1) visual encounter surveys, where they searched for reptiles and amphibians in a study area, and 2) camera traps, which combined small strips of fencing with close-focus cameras pointed at the ground. They found that the camera system detected far more species of small animals compared to the traditional surveys.

In a second study, researchers compared different methods for monitoring birds. Traditionally, researchers have used point counts, where trained observers identify every bird they hear or see at a location. Researchers are also increasingly using acoustic devices to automatically record bird sounds. Recently, machine learning tools have enabled computers to identify bird sounds from these recordings, allowing people to indirectly identify birds while saving much time and effort. In their study, the CDFW researchers found that low-cost recorders performed comparably to expensive ones, and that a machine learning tool accurately identified high numbers of bird species from the recordings.

The researchers will apply what they have learned and shared to a new statewide monitoring effort, which is being developed by CDFW’s Cannabis Program. These advancements will enable a more efficient wildlife monitoring effort that saves money and time. And most importantly, with the information gained from improved monitoring, CDFW staff and other wildlife managers will be able to make more informed decisions to help our native California wildlife cope with current and future challenges.

Categories: California Fish and Game Journal, General, Science Spotlight
  • June 18, 2019

Three people in waders with long black rubber gloves. Man in middle wearing large gray backpack with tubing coming off back. All three are bent over holding long black rods in small streambed with fallen trees surrounding. Background is filled with trees and vegetation.
CDFW scientists rescuing juvenile Coho Salmon from isolated and drying pool habitats in Olds Creek, a tributary to the Noyo River in Mendocino County.

Three men in and alongside streambed.One man is in the water wearing a gray machine backpack while holding a long yellow rod with a round metal hoop at the end. Another man in the water is bent over holding a small net about the water. A third man crouches alongside the water on top of rocks peering into white bucket. Another white bucket is nearby.
CDFW crew relocating steelhead and Coho Salmon to a lower pool on East Weaver Creek in Trinity County in June of 2015.

Woman wearing purple plaid shirt and black pants holding large yellow and white rod against large boulder. Background is filled with large boulders and vegetation.
In July 2016, this usually perennial pool on Matilija Creek in the Ventura River watershed went dry, killing several juvenile steelhead.

One silver lining to emerge from the severe drought that impacted California earlier this decade was that it whetted an appetite to study the event and compile data designed to help fish and aquatic species better weather future droughts.

The state experienced one of the warmest, driest periods in recorded history during this five-year drought (2012 to 2016).

In Jan. 2014, then-Governor Jerry Brown declared the drought a state of emergency. His proclamation directed all state agencies to act to prepare for and mitigate drought-related effects on water supply and aquatic species. The California Department of Fish and Wildlife (CDFW) responded by enacting “drought stressor monitoring” on a statewide level, and recently released a summary report on that effort entitled link opens in new windowStatewide Drought Response: Stressor Monitoring (PDF).

In late 2016 to early 2017, drought conditions improved considerably in most of the state when winter storms delivered higher than average levels of rainfall. The report describes the results from a collaborative statewide monitoring effort carried out during the period of 2014 to 2017 by scientists from CDFW and other agencies.

The primary purpose was to collect information on the status of populations of fish and other aquatic species, their habitats, and the water quality in the streams in which they reside. The intent was to provide both the scientific community and the public with a better understanding of potential drought-related threats to vulnerable species, and measures taken by CDFW and other agencies to alleviate these threats. This information was also necessary to help CDFW make better-informed management decisions.

The knowledge and data gained in this effort will be used to guide both CDFW and other resource managers during future droughts.

“This was a monumental statewide monitoring effort in response to drought impacts,” said CDFW Environmental Program Manager Jonathan Nelson. “The Drought Stressor Monitoring” developed important baseline documentation of the environmental changes associated with the severe drought conditions, and how the changes affected aquatic habitats and fish populations throughout the state. It was vital to collect this baseline, so we would better understand how to respond both in the present and in the future by creating a boiler plate. This document summarizes the monitoring framework implemented from 2014 to early 2017, how these data informed management actions, and how these efforts will hopefully minimize the impacts on fish and aquatic species during future droughts.”

Overall, CDFW monitored habitat conditions for 17 aquatic species in 141 watersheds, spanning 28 counties. Key findings from the monitor efforts identified several patterns of drought-related ecosystem change throughout the state including 1) increased loss of stream connectivity; 2) degraded water quality, including reduced levels of oxygen and elevated water temperatures; 3) high elevation streams impacted by the formation of winter anchor ice; and 4) elevated instances of fish being stranded by low streamflow and adversely affected by poor water quality.

Drought stressor monitoring was integral to management actions and was particularly critical to the process of aquatic species rescue. Fish rescues were only undertaken after Drought Stressor Monitoring information showed that populations were at high risk of becoming locally extinct in the immediate future. CDFW scientists developed special criteria and guidelines to assess the threat of drought and when to initiate rescue operations. When suitable habitat was available, fish were relocated to nearby habitat within the same stream or watershed to ensure the genetic health of the population and to maintain local adaptations. In cases where habitat was not available, fish were relocated to nearby hatcheries for temporary holding.

Approximately $3 million was dedicated to this effort from then-Governor Brown and more than approximately 100 CDFW staff members contributed to the monitoring and report-summary efforts. CDFW’s Fisheries Branch spearheaded the compiling of the data and finalized the report in collaboration with staff in the department’s various regions.

link opens in new windowView the final report (PDF).

CDFW Photos.

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Media Contact:
Kirsten Macintyre, OCEO Communications, (916) 322-8988
 

Categories: Wildlife Research
  • May 17, 2018

Two bighorn sheep laying with blinders on inside enclosed area
These pregnant females will bolster the population of a newly established herd as well as provide an infusion of fresh genetic material to helps ensure their new herd’s health and long-term survival.

Bighorn sheep with blue ear tag and collar
Outfitted with an ear tag and two tracking collars, this ram awaits delivery to a new herd where it’s hoped he will infuse the population with fresh genetics

Two men in helmets bending over a bighorn sheep with blinders on wrapped in large orange sling with white pickup trucks and two men in background
Among the goals of the Sierra Nevada Bighorn Sheep Recovery Plan is the establishment of 12 viable herds across their historic range. CDFW’s capture and relocation efforts over the years have helped establish 14 herds today across 150 miles of their historic range.

Three bighorn sheep on desert landscape ground wrapped in large orange slings while to men in helmets look over them and several people stand in the background
These Eastern Sierra bighorn sheep are being prepared for their flight to a new home and new herds.

Seven animals.

Can just seven Sierra Nevada bighorn sheep really make much of an impact on the species’ future?

CDFW scientists believe so, which is why they came away pleased with the results of their annual spring helicopter capture this past March. Limited to three days of work due to strong winds and bad weather, the effort resulted in the capturing, collaring and relocation of seven sheep to new herds high in the Eastern Sierra.

Although the final chapters have yet to be written, the saga surrounding the Sierra Nevada bighorn sheep, one of the rarest large mammals in North America, is shaping up to be a 21st century wildlife success story.

A unique subspecies found only in the Sierra Nevada, historic populations numbered in the thousands. Their steep population decline began in the 1800s as a result of competition from livestock grazing, unregulated hunting and the transmission of disease from domestic sheep. Drought and predation further hammered their numbers, which dwindled to about 100 animals in just three herds by the mid-1990s. State and federal officials declared them endangered in 1999.

Today, less than 20 years removed from those dramatic listings, there are 14 different Sierra Nevada bighorn sheep herds spread across 150 miles of the iconic mountain range. About 600 bighorn sheep are now eking out a living atop the Sierra’s highest peaks. Sierra Nevada bighorn sheep are present once again inside Yosemite National Park and Sequoia National Park after a 100-year absence.

CDFW’s role is itself unique as a state agency tasked with leading the recovery of a federally listed endangered species. Sierra Nevada bighorn sheep are recolonizing their historic range – with a major assist from CDFW’s twice-yearly captures, collaring and strategic “translocations.”

This spring, three males and four pregnant females were captured from two established herds and translocated to two newly reintroduced herds – one along their western range inside Sequoia National Park and another herd in Inyo County at the southernmost extent of their range.

“Whenever we start these new herds, we like to move a minimum of 20 females as well as additional rams over time,” explained Tom Stephenson, a CDFW senior environmental scientist based in Bishop and the leader of the Sierra Nevada Bighorn Sheep Recovery Program. “At that point, we feel the population has enough animals to begin growing at a high enough rate and also has sufficient genetic diversity.”

Before the animals are relocated, a CDFW team records their vital statistics. Ultrasound machines are used to measure body condition and determine pregnancy status. The animals are outfitted with identifying jewelry – color-coded ear tags, VHF and GPS collars that allow biologists to identify them and track their movements for years in some cases.

All the high-tech, intensive monitoring has paid dividends with new appreciation and understanding. Once believed to always migrate to lower elevations in the winter, CDFW scientists have learned that many sheep ride out the Sierra Nevada’s inhospitable winters at 11,000- to 14,000-foot elevations.

“They are really tough,” Stephenson said. “But they’re able to do that because they put on large amounts of body fat in the summer when they’re on quality habitat. They are essentially hibernating standing up in the alpine. They’ve got an environment up there that is wind-scoured so they can find some food. They’re not having to move around much, and they’re relatively free from predators when they’re up in those altitudes in the winter time.”

Not every sheep captured is relocated.

Helicopter crews this spring attempted unsuccessfully to capture rams in the northernmost part of their range, collar them and return them to their same herds. CDFW biologists are keeping close tabs on the Mount Warren Herd near Lee Vining in Mono County in particular and its proximity to domestic sheep grazing on public land. Sierra Nevada bighorn sheep are disease-free and CDFW biologists want to keep them that way.

While populations have met or exceeded some recovery goals, eliminating disease – or the risk of disease – remains a significant benchmark and key to delisting or down-listing the species from endangered status.<

“There are a lot of bighorn sheep populations throughout the West that continue to struggle with disease,” Stephenson said. “So we’ve worked really hard with public land managers as well as private individuals in the Eastern Sierra to try and ensure our bighorn sheep don’t come into contact with domestic sheep.”

CDFW photos courtesy of Andrew Di Salvo. Top Photo: A helicopter crew delivers four bighorn sheep to CDFW's base camp where vital statistics were recorded, blood was taken, and the sheep were outfitted with identifying ear tags and tracking collars.

Categories: Wildlife Research
  • April 18, 2017

California hosts approximately 6,500 different kinds of plants that occur naturally in the state, and many of these are found nowhere else in the world. Some of these plants are so rare or have been so impacted by human influence that they are at risk of permanent extinction from the wild and have been protected by state and federal laws. The California Department of Fish and Wildlife’s (CDFW) Native Plant Program is developing and implementing standardized and repeatable monitoring plans for ten state and federally listed plant species on nine CDFW Ecological Reserves throughout the state. This work is funded by a federal grant awarded in 2015.

a man kneels to look at wildflowers

One of the plants being monitored is Butte County meadowfoam (Limnanthes floccosa ssp. californica), which occurs at North Table Mountain Ecological Reserve, north of Oroville in Butte County. The reserve is on an elevated basalt mesa that was created by ancient lava flows and supports a rare type of vernal pool called Northern Basalt Flow Vernal Pools. There were only 498 Butte County meadowfoam plants found on the reserve this spring. The reserve also supports a high diversity of other plant species that erupt with bright colors in the spring and attract hordes of visitors.

Another plant being monitored is the endangered Slender-petaled thelypodium (Thelypodium stenopetalum) that occurs at Baldwin Lake Ecological Reserve, in the San Bernardino Mountains near Big Bear. The reserve is in a unique environment known as the pebble plains, which only occur in Big Bear Valley and nearby Holcomb Valley. The pebble plains were formed when glaciers receded during the Pleistocene age and mainly consist of clay soils overlain by a layer of orange and white quartzite pebbles. Slender-petaled thelypodium only grows in this rare pebble plain habitat, and only 15 plants were found on the reserve last spring. Other rare plant species such as the endangered bird-foot checkerbloom (Sidalcea pedata) are found on the reserve and in the surrounding pebble plain habitat.

The monitoring project also includes plants at Little Red Mountain, Boggs Lake, Loch Lomond, Stone Ridge, Phoenix Field, Pine Hill and Apricum Hill Ecological Reserves. The grant is funded through January 2018 and the Native Plant Program has applied for another grant to continue this project.

Categories: General
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