Treating and Training Golden Retrievers with Love


Oprah has 3 Goldens and wanted help with their jumping up on folks when they come to visit.

Click here to watch a video of Oprah learning the steps to changing this behavior.

Tamar’s 3-step method

(to teach Luke, Layla and Gracie to stay on all fours):

Step 1: Turn your back. “I want you to be the center of the universe,” Tamar says. “Therefore, I want you to love them so much that when you take the love away they’re like, ‘Oh, what can we do to get her love back?'”

Step 2: Tell the dog to sit. “I want them to know that the only time you’re going to look at them and you’re going to touch them is when they’re sitting,” Tamar says. “I want them to feel like they’re exploding, but yet they are not moving their tush off the ground.”

Step 3: Give a treat, but make sure to keep your hand low. “If you give your treat [too high], she’s going to jump to get it,” Tamar says.


Golden Retriever Tails a Waggin’ … Left & Right have different meanings

A Matter of Degree
Seeing its owner, the dog wagged harder to its right. Shown an
unfamiliar dog, the bias was to the left. Center forNeuroscience/U of Trieste

Click here to see 2 video clips. One is named: Uneven Tail Wagging and the other: The Analysis.

If You Want to Know if Spot Loves You So, It’s in His Tail
By SANDRA BLAKESLEE, New York Times, April 24, 2007

Every dog lover knows how a pooch expresses its feelings. Ears close to the head, tense posture, and tail straight out from the body means “don’t mess with me.” Ears perked up, wriggly body and vigorously wagging tail means “I am sooo happy to see you!”

But there is another, newly discovered, feature of dog body language that may surprise attentive pet owners and experts in canine behavior. When dogs feel fundamentally positive about something or someone, their tails wag more to the right side of their rumps. When they have negative feelings, their tail wagging is biased to the left.

A study describing the phenomenon, “Asymmetric tail-wagging responses by dogs to different emotive stimuli,” appeared in the March 20 issue of Current Biology. The authors are Giorgio Vallortigara, a neuroscientist at the University of Trieste in Italy, and two veterinarians, Angelo Quaranta and Marcello Siniscalchi, at the University of Bari, also in Italy.

“This is an intriguing observation,” said Richard J. Davidson, director of the Laboratory for Affective Neuroscience at the University of Wisconsin in Madison. It fits with a large body of research showing emotional asymmetry in the brain, he said.

Research has shown that in most animals, including birds, fish and frogs, the left brain specializes in behaviors involving what the scientists call approach and energy enrichment. In humans, that means the left brain is associated with positive feelings, like love, a sense of attachment, a feeling of safety and calm. It is also associated with physiological markers, like a slow heart rate.

At a fundamental level, the right brain specializes in behaviors involving withdrawal and energy expenditure. In humans, these behaviors, like fleeing, are associated with feelings like fear and depression. Physiological signals include a rapid heart rate and the shutdown of the digestive system.

Right Brain, Left Brain
The muscles on either side of the tail apparently reflect
emotions like fear & love registering in the brain. Marcello Siniscalchi/U of Trieste

Because the left brain controls the right side of the body and the right brain controls the left side of the body, such asymmetries are usually manifest in opposite sides of the body. Thus many birds seek food with their right eye (left brain/nourishment) and watch for predators with their left eye (right brain/danger).

In humans, the muscles on the right side of the face tend to reflect happiness (left brain) whereas muscles on the left side of the face reflect unhappiness (right brain).

Dog tails are interesting, Dr. Davidson said, because they are in the midline of the dog’s body, neither left nor right. So do they show emotional asymmetry, or not?

To find out, Dr. Vallortigara and his colleagues recruited 30 family pets of mixed breed that were enrolled in an agility training program. The dogs were placed in a cage equipped with cameras that precisely tracked the angles of their tail wags. Then they were shown four stimuli through a slat in the front of the cage: their owner; an unfamiliar human; a cat; and an unfamiliar, dominant dog.

In each instance the test dog saw a person or animal for one minute, rested for 90 seconds and saw another view. Testing lasted 25 days with 10 sessions per day.

When the dogs saw their owners, their tails all wagged vigorously with a bias to the right side of their bodies, Dr. Vallortigara said. Their tails wagged moderately, again more to the right, when faced with an unfamiliar human. Looking at the cat, a four-year-old male whose owners volunteered him for the experiment, the dogs’ tails again wagged more to the right but in a lower amplitude.

When the dogs looked at an aggressive, unfamiliar dog — a large Belgian shepherd Malinois — their tails all wagged with a bias to the left side of their bodies.

Thus when dogs were attracted to something, including a benign, approachable cat, their tails wagged right, and when they were fearful, their tails went left, Dr. Vallortigara said. It suggests that the muscles in the right side of the tail reflect positive emotions while the muscles in the left side express negative ones.

While some researchers have argued that only humans show brain asymmetry — based on the evolution of language in the left brain — strong left and right biases are showing up in the brains of many so-called simpler creatures, said Lesley Rogers, a neuroscientist who studies brain asymmetry at the University of New England in Armidale, Australia.

There’s more . . . . .