Monthly Archives: March 2018

Elderberries, Salmon, or Both?

Bears are omnivores, and on Kodiak, they eat a large buffet of food items, including elderberries and salmon, two of their favorite foods. What happens, though, if a bear has a choice between elderberries or salmon? Which will he choose, or will he choose both? More importantly, why does it matter?

I’m sure you have controversies in your neighborhood. It may be a fight over a bill to fund a new school, a fight over a tougher crime initiative, or something as simple as whether or not to put a stop sign at the end of your street. In my neighborhood here in the wilderness, the recent research I’ll discuss in this post is what we call controversy. I’ve avoided writing about this scientific article until now because I know I will irritate several people, some of them friends. I finally decided, though, I couldn’t continue to avoid voicing my opinion on something this significant. I have invited some of the biologists involved in this study, other biologists, and local guides to read my blog, and I hope they will weigh in on the issue by leaving comments. I am sorry this post is long, but I didn’t want to break it into two parts.

The study I will discuss is titled, “Phenological synchronization disrupts trophic interactions between Kodiak brown bears and salmon.” It was published in the July 18th edition of the Proceedings of the National Academy of Sciences. I think it is an excellent study, and more importantly, other biologists must think it is an excellent study. The Proceedings of the National Academy of Sciences is a prestigious scientific journal, and to be accepted by this journal, a research paper must be peer-reviewed at the highest level. I do not disagree with the methods or the results of the study. What I do have a problem with are the broad, far-reaching conclusions drawn from what is, in my opinion, a preliminary field study.

Let me do my best to explain the focus and significance of this study. A large body of research concerns what happens due to global warming when coevolved species shift out of synch with each other. For example, consider a plant that is only pollinated by one bee species, and these two species co-evolved so the plant flowers at the exact same time the bee is ready to gather its nectar and pollinate it. What happens, if the bees hatch earlier each year due to a warming environment, but the flowers bloom at the same time because their cue for blooming is based on the amount of daylight, not temperature. The two species will slowly grow out of synch with each other, and the plant species may go extinct when the bees are no longer available to spread its pollen.

In this study, though, lead researcher William Deacy and his colleagues set out to investigate the opposite situation: what happens when warming temperatures cause climate-induced synchronization? In this case, when elderberries fruit several weeks earlier than usual on Kodiak Island during the middle of the sockeye salmon run, will bears choose to eat salmon or berries?

The Karluk River on Kodiak Island, where this research was done, supports a large sockeye salmon run lasting from June to early August. On a normal year, bears on the Karluk River feast on sockeye and other salmon until late August, when they begin eating elderberries and salmonberries which are just then ripening. Once the berries are gone, bears return to the river and side streams to eat other species of salmon.

When William Deacy worked on another research project in the Karluk area in 2013, he noted typical bear behavior. Throughout July, bears ate their fill of salmon and left the scraps for birds and other animals to scavenge. In 2014, after a warm spring, elderberries ripened two weeks earlier than usual, and plants produced ripe berries longer than normal. Deacy noted that bears in late July were eating berries instead of fish. Why, he wondered, would bears opt for elderberries over sockeye salmon? The winter and spring of 2015 were also warm, and Deacy again observed bears ignoring sockeye salmon while they ate berries.

Deacy and Kodiak National Wildlife Refuge biologist Bill Leacock gathered a team of scientists from several universities and organizations, including Oregon State University, the University of Montana, Washing State University, and the National Park Service, to examine this surprising bear behavior.

From meteorological records, the biologists determined the temperature on Kodiak is slowly getting warmer, and 2014 was the warmest year on record. When the winter and the spring are relatively warm, elderberries ripen earlier than normal, and when elderberries ripen earlier, bears seem to eat berries instead of salmon. What, they wondered, will happen when temperatures continue to warm? If the berries are ripe all summer, will bears only eat berries and ignore salmon? If this happens, what will the birds and small animals eat? They depend on bears to leave them scraps of salmon on the banks of streams. Not only do animals depend on bears for leftover salmon, but salmon carcasses provide fertilization for riparian vegetation. Another point of concern is if bears only eat berries and avoid salmon, will bears get enough nutrition?

Deacy and his colleagues headed for the lab to determine if elderberries are nutritious enough to sustain bears, and why bears like berries better than salmon. Fortunately, elderberries are protein-rich compared to other berries. They don’t have as much protein as a salmon, but a bear would do fine if he ate elderberries instead of salmon. I won’t discuss the part of the study suggesting why bears prefer elderberries over salmon because I believe this conclusion is based on a very shaky assumption.

Do bears prefer elderberries over salmon, and if provided with both, would they choose the berries? I don’t know the answer to this question, and neither does William Deacy or any other biologist. As I said earlier, I think this is a well-done, interesting, thought-provoking study, but let ’s not get carried away. This is a preliminary study consisting of three years of data taken over a fairly small geographical area. It is unprofessional for any biologist to draw sweeping conclusions from a limited, preliminary study.

I would like to believe the media is responsible for jumping to wild conclusions regarding this research. I corresponded with Dr. Deacy after the research was published and asked him if he was trying to say bears are now eating berries instead of salmon. I may have misunderstood him, but I thought he said he was only suggesting what might happen as our climate warms. Then I found articles titled, “Alaskan grizzly bears choose berries over salmon—thanks to climate change,” “Kodiak bears found to switch to eating elderberries instead of salmon,” “Grizzly bears go vegetarian due to climate change, “Climate change is luring Kodiak bears away from their iconic salmon streams,” and “As a warming climate changes Kodiak bears’ diets, impacts could ripple through ecosystems.” Deacy, himself, wrote this last article. In it, he claims, “climate change dramatically altered bear behavior.”

The researchers state the ecosystem on Kodiak Island has been disrupted. I have lived in the Kodiak wilderness and have helped my husband guide bear viewers for 35 years. My husband has lived in the Kodiak wilderness all his life. Warm springs and big berry crops are not unusual, and when the berries, especially salmon berries and elderberries, ripen, we know we will see fewer bears on the rivers feeding on salmon where we can show them to our eager bear viewers. The bears will instead be in the bushes eating berries. I seriously doubt bears prefer berries to salmon, though! Berries are an easier food source than salmon because all the bear has to do is sit on his rear end and eat them. He is required to expend energy to chase down a salmon.

I believe either from instinct or learned behavior, bears know that when berries ripen, they are usually only available for a short period. Salmon, though, can be eaten from June into November. One fact I feel these researchers did not stress enough is that five species of Pacific salmon return to spawn each year in the streams and rivers on Kodiak Island. Pink salmon, not sockeye salmon, are by far the most prevalent of these species, and I have thousands of photos to prove how much bears love to eat pink salmon. Pinks are in the rivers until late September, and Coho salmon remain in the rivers until November.

Yes, the spring and summer of both 2014 and 2015 were warmer than usual, and the berries were plentiful. Once the berries began to decline, though, bears were back on the rivers eating their fill of salmon and leaving scraps for the birds and other animals. I suspect when these warm springs and summers become the norm, bears will learn they have a longer period to eat berries and will split their time between berries and salmon. I may be wrong, and bears may choose berries, but I know it should take more than a two-year study before biologists begin telling reporters that Kodiak bears have abandoned salmon for berries.

The spring and summer of 2017 were cool. The berry crop was poor, and the salmon run on Kodiak was better than it has been in several years. Bears packed the salmon streams, and we wondered whether they would eat enough berries to gain the necessary calories they need to carry them through hibernation. A biologist arriving at Karluk Lake last summer observing abundant salmon and few berries might have designed a very different research study from the one I’ve been discussing in this post.

What worries me, is that as the planet warms, salmon populations will drastically decline because salmon are sensitive to even a small increase in water temperature. As this research suggests, though, when salmon are no longer available, perhaps bears will maintain a healthy diet by eating berries.

I would like to make one more comment before I get off my soapbox. Why must biologists live in a bubble? Why didn’t the researchers in this project talk to guides who have been watching bears for decades? I realize they can’t use anecdotal evidence in their study, but perhaps we could have offered possibilities in addition to the conclusions Dr. Deacy made.

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Robin Barefield is the author of three Alaska wilderness mystery novels, Big Game, Murder Over Kodiak, and The Fisherman’s Daughter. To download a free copy of one of her novels, watch her webinar about how she became an author and why she writes Alaska wilderness mysteries. Also, sign up below to subscribe to her free, monthly newsletter on true murder and mystery in Alaska.

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Genetic Studies and More Kodiak Bear Research

Last week, I discussed early studies on Kodiak bears, and this week I want to continue by talking about more recent research, including some troubling genetic studies.

A 1996 genetic study questioned whether Kodiak bears should be considered a separate subspecies from other Alaskan brown bears. A 1998 study on the genetic diversity of North American brown bears indicated genetic diversity among Kodiak bears is much less than it is for other populations of North American brown bears. Several of the bears sampled on Kodiak had identical genotypes. A study by Paetkau and colleagues further explored the genetic isolation of Kodiak bears from other Alaskan brown bear populations.

A 2006 report for the Kodiak National Wildlife Refuge illustrates that Kodiak bears have extremely low levels of genetic variation at neutral nuclear microsatellite markers. The level of genetic variation in Kodiak bears is much lower than the variation found in any other brown bear population. Furthermore, this low level of variation is not only found at neutral markers but also in nuclear-functional genes. While the Kodiak bear population is presently healthy, this low genetic variability makes this population susceptible to novel parasites and pathogens that may somehow reach Kodiak and infect bears.

Bear research is ongoing on the Kodiak National Wildlife Refuge. Yearly intensive aerial surveys yield population counts, and aerial stream surveys determine the number of bears on certain streams and study the population profiles of the bears on each stream (the percentage of single bears, sows with newborn cubs, sows with one-year-old cubs, etc.).

The Alaska Department of Fish and Game is studying the population characteristics and habitat use of brown bears on Afognak Island since the movements and ecology of Afognak bears are not well-understood.

In 2010, William Leacock headed a two-year project near Karluk Lake on the Kodiak National Wildlife Refuge to collar and track several Kodiak bears. Each bear in the study was fitted with a GPS collar to broadcast the bear’s location at hourly intervals. A Refuge pilot with an antenna attached to the wings of his plane flew over the bears and picked up the GPS signal from the radio collars of each bear being tracked. A crew member then downloaded these GPS points onto a laptop. From this information, the researchers were able to study the detailed movements of each bear and record the preferred habitat, food preferences, and bedding choices of each animal. Once the GPS data were collected in the field, volunteers hiked to the exact locations where each bear had been and recorded the types of food plants available in the area as well as other pertinent information. The goal of this study was to quantify behavioral responses of Kodiak bears to resources that vary in time and space (such as salmon runs and berry production). Dr. Leacock and his associates also studied how fluctuations in abundance of salmon at various streams near Karluk Lake influenced bear movements and exploitation of those streams.

Next week, I’ll discuss a new study that is both fascinating and controversial. I hope to invite the researchers on the study as well as guides who have been watching bears and their behavior for years to read my post and comment on it. Maybe I can get a lively discussion started! Be sure to check back often.

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Robin Barefield is the author of three Alaska wilderness mystery novels, Big Game, Murder Over Kodiak, and The Fisherman’s Daughter. To download a free copy of one of her novels, watch her webinar about how she became an author and why she writes Alaska wilderness mysteries. Also, sign up below to subscribe to her free, monthly newsletter on true murder and mystery in Alaska.

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Kodiak Bear Research

Biologists with the Alaska Department of Fish and Game and the Kodiak National Wildlife Refuge are responsible for most of the research on Kodiak bears, and much of this research has concentrated on denning behaviors and home ranges of Kodiak bears, with an emphasis on management applications. Today, the Kodiak Brown Bear Trust funds a portion of bear research. The trust was established in 1981 to compensate for potential impacts on Kodiak bears by the construction and operation of the Terror Lake Hydroelectric Project. The trust funds bear research, management, habitat protection, and educational outreach projects. The Kodiak Brown Bear Trust relies on tax-deductible contributions to carry out its mission. If you would like to support Kodiak bear research and habitat protection, please visit www.kodiakbrownbeartrust.org to learn more about the trust and how you can donate.

In 1896, C.H. Merriam visited Kodiak and confirmed reports that Kodiak bears were the largest bears in the world. He named the species in honor of Russian naturalist Dr. A. Th. Von Middendorff. Merriam divided the North American brown and grizzly bears into eighty-six forms based on slight variations in size, fur color, and skull shape. Scientists now know physical differences in these categories can occur within populations and even within family groups. Today, all North American brown bears, grizzlies, and Eurasian brown bears are grouped into the single species Ursus arctos. Kodiak bears are classified Ursus arctos middendorfi, and all other brown and grizzly bears are listed as Ursus arctos horribilis.

The first scientific studies of Kodiak bears were simple hunting and collecting trips to document their size. In the early 1900’s, research was concerned with determining how many cattle and salmon bears were killing and eating. A study by W.K. Clark in 1955 showed although bears are very effective at catching salmon in a stream, they catch few unspawned salmon, making their impact on the salmon run much less than originally believed. 

As the Kodiak bear became a valued trophy for big game hunters, the focus of the research shifted to learning more about the physiology and behavior patterns of bears. Biologists refined techniques for capturing and marking bears and began to use radio telemetry to track the movements of specific bears. This jump in technology provided biologists with information on home ranges, densities, gender and age ratios, and litter sizes.

Most of the early research on Kodiak bears was conducted on the south end of Kodiak Island, but in 1982, construction began on the Terror Lake Hydroelectric Project on the north end of the island, and funds were made available to study if this project would affect bears in the vicinity of the proposed dam. Biologists were surprised when studies on the bears near Terror Lake showed bears in this area had different denning behaviors and preferences than did bears on the south end of the island, indicating that Kodiak bears have adapted well to the slightly different habitats on opposite ends of the island.

In the 1970’s, a study investigated Kodiak brown bear use of alpine habitat during the summer months and preferred plant foods of bears, while a study published by Victor Barnes in 1990 examined the influence of salmon availability on the movements of brown bears.  A 1994 study by Barnes investigated the impact deer hunters have on Kodiak bears, and a 2006 paper by Barnes discussed his study on the impact of bear viewers and photographers at O’Malley River on Kodiak Island. This study showed that while a regimented bear-viewing program impacted bears less than a non-regimented program, bears were still affected much more by a regimented bear-viewing program than they were when the area was closed to public use. I think the important lesson to learn from this study is that any time you step into the bears’ habitat, you are impacting them to some degree.

Next week, I will tell you about recent research on Kodiak bears. As always, thank you for visiting my blog.

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Robin Barefield is the author of three Alaska wilderness mystery novels, Big Game, Murder Over Kodiak, and The Fisherman’s Daughter. To download a free copy of one of her novels, watch her webinar about how she became an author and why she writes Alaska wilderness mysteries. Also, sign up below to subscribe to her free, monthly newsletter on true murder and mystery in Alaska.

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Relationships between Kodiak Island Refuge Users and Bears

How have deer and goat hunters and bear viewers impacted Kodiak bears? This is my third and final post about the complex relationship between humans and bears on Kodiak Island.

Deer Hunters

In the early 1980s, the Sitka black-tailed deer population exploded throughout the Kodiak Archipelago. As a result, the length of the deer-hunting season as well as the bag limit for deer increased. For several years, each hunter was allowed to shoot seven deer. Bears quickly adapted to this new, easy source of food, and conflicts between bears and deer hunters increased in frequency. A questionnaire filled out by hunters indicated 21% of all deer hunters had threatening encounters with bears, and as many as 26% lost deer meat to bears. A heightened emphasis on hunter education and ways to avoid bear encounters has helped solve this problem. Today, the bag limit is three deer per hunter, but bear/deer-hunter encounters still occur.

Goat Hunters

The mountain goat population on Kodiak has also rapidly increased within the last decade, and in many areas, permits for hunting mountain goats have gone from a restricted drawing to an open registration. Several goat-hunter/bear conflicts have occurred in the last few years, but goat habitat is difficult to reach, so there are fewer goat hunters than deer hunters and therefore fewer goat-hunter/bear conflicts than deer-hunter/bear conflicts.

 

Bear Viewers and Photographers

The interest in bear viewing and photography has steadily increased on Kodiak since the 1980’s. The Refuge classifies bear viewing as “non-consumptive” use as opposed to “consumptive” use by bear hunters, but “non-consumptive” is a misleading term. Bear viewers can be very disruptive to bears and the habitat, and their impact or potential impact is not easy to measure or predict. The challenge the Refuge has faced in recent years is to learn how to limit the impact of non-consumptive users on bears while allowing as many people as possible the thrill of watching a Kodiak bear in its natural habitat.

Bear viewing on Kodiak occurs almost exclusively in the summer months when bears are concentrated on streams or in shallow, saltwater areas at the heads of bays, feeding on salmon. Bears must consume large amounts of protein and fat in the summer to sustain them through the following winter’s hibernation. It is especially critical for sows with cubs and pregnant sows to receive adequate nutrition.

Bear viewers can force bears away from prime feeding areas. This impact is difficult to measure, and it is likely bear viewers or photographers will not even realize they are impacting the bears, because some bears are more tolerant of humans and will stay and feed in their presence, while other bears will leave the area as soon as they detect humans nearby. These less-tolerant bears may then be forced to fish in less-productive areas or at different times of the day when tides and light conditions are not as good.

Management Decisions

Biologists are now studying and trying to understand the impacts bear viewers, sport fishermen, rafters, and hikers have on Kodiak bears, and they hope to use what they learn to develop regulations to manage these impacts on Kodiak bears and their habitat.

Over the next few weeks, I plan to cover past and present scientific research on bears, including one recent controversial study.

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Robin Barefield is the author of three Alaska wilderness mystery novels. To download a free copy of one of her novels, watch her webinar about how she became an author and why she writes Alaska wilderness mysteries. Also, sign up below to subscribe to her free, monthly newsletter on true murder and mystery in Alaska.

Mystery Newsletter

Sign Up for my free, monthly Mystery Newsletter about true crime in Alaska.