Did Pete Rose's Competitive Spirit Drive Him To Gamble?

Did Pete Rose's Competitive Spirit Drive Him To Gamble?

For many young baseball fans, Pete Rose is a name that is better known for being a baseball player banned from the game for gambling rather than the all-time leader in hits, not to mention games played, at-bats and singles. 

In 1989, Major League Baseball banned him from the game due to accusations, which Rose later admitted to, of betting on baseball games including on his own team, the Cincinnati Reds, as a player and a manager. While Rose contends that he never bet on the Reds to lose, which would be a conflict of interest, MLB still suspended him indefinitely.

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To Know Where You're Going, You Have To Know Where You've Been


What happened out there? You thought you were ready. You thought your training went well last week. You thought your pre-competition routine was the same as always. Now you’re wondering why you hit the wall early and just had an off day. 

Consistently performing at a high level depends on creating the right combination and pattern of training that yields the best outcome. Even a small change to that ideal routine can result in a poor performance. Finding that wrong turn requires retracing your steps through your recent training sessions.

Unfortunately, many athletes lack a system to capture not only the quantitative data but also the qualitative information about their mood, motivation and daily activities that may have affected their results. In all of the noise of today’s high-tech monitoring devices, the simplicity of a training diary often gets overlooked.

So, what exactly is a training diary? It can range from a paper notebook with an athlete’s thoughts about the day’s practice to a sophisticated, online app. For either version, the key ingredient is consistent and accurate data. Without an athlete or coach entering data, the diary is like staring at a map with no roads.

Recently, human performance researchers at Dublin City University (DCU) studied the effectiveness of using training diaries for young Gaelic footballers as a way to assess their overall training load. Without proper management of their time and activities, young athletes can suffer burnout from overtraining.

Siobhán O’Connor, a researcher and graduate student at DCU, and Professor Noel McCaffrey gathered 162 players from U14, U18 and adult teams to measure not only the response of players to using a diary, either paper-based or online, but also to validate that what the players self-reported was an accurate reflection of their actual training.

Previous research has shown that athletes prefer easy and efficient data entry for a diary to succeed. O’Connor designed a format that, on average, took the players just under 4 minutes per day to fill out. Initially, the paper and online versions received about the same participation rate but when e-mail or text reminders were sent out for the online version, the players use of the online version increased substantially.

Filling diaries with the right information is just as important as timeliness. As they say in the computer world, “garbage input produces garbage output.” To check this, a subset of the players also wore accelerometers and/or SenseCams to objectively capture data about the training sessions. When this data was compared with what the players actually recorded in their diaries, there was a 95% agreement, confirming that the players could accurately self-report their own data.

O’Connor is encouraged by the results, “This study will benefit Gaelic Footballers throughout Ireland and beyond by enabling them to quantify their training load in a quick and easy manner.”

Although training diaries were initially designed with amateur or semi-professional sports enthusiasts in mind, online diaries combined with communication portals are being utilized more and more by professional organizations and elite athletes.

Of course, the payoff for athletes to entering this information is being able to quickly review the data and ensure consistent performance improvement. That’s where online diaries shine, especially those that can analyze the data and identify cause and effect patterns. Being able to understand how your daily habits contribute to your results makes it all worthwhile.

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Team Building Does Not Bond

Team building activities in sport are carried out for tradition's sake and don't help players to bond, according to results of a new study presented April 16 at the British Psychological Society's Annual Conference in Stratford-Upon-Avon.

Research into initiation practices in sport by Dr Moira Lafferty, from the University of Chester, and Dr Caroline Wright, from Liverpool Hope University, reveals that there is no positive relationship between team building activities and better team cohesion.

Dr Lafferty explained: "Initiation ceremonies have often been described as "rites of passage' for new players joining sporting groups or teams. Despite attempts to eradicate inappropriate team building activities there is still evidence that they take place and are perceived to promote team cohesion."

The researchers examined the level of appropriate and inappropriate activities engaged in across a range of sports and then explored their relationship to team cohesion to discover whether differences exist between co-active sports, such as badminton, tennis and horse riding, and interactive sports such as football, rugby and cricket. The study involved surveying 100 athletes from across the country aged between 18 and 24.


The results showed little to suggest that team building activities, which can be as basic as having a meal together, helped significantly promote team unity.

"Our findings suggest that, despite there being no positive relationship to team cohesion, team building activities, both positive and negative, are still conducted," Dr Lafferty said.

"Interactive sports players are more likely to be subjected to inappropriate team building activities, which suggests that the idea of initiation may be embedded in the tradition of these teams and is seen as part of their cultures."

Source: British Psychological Society (BPS)

See also: Nobody Wants To Lose To The Underdog and Ending The Myth Of The Dumb Jock

How Should Cheating Be Defined In Sports?


When Milwaukee Brewers pitcher Chris Capuano reports for spring training in April, he will be anxious to demonstrate the effects of a performance-enhancing off-season. His brain will benefit from a sharper focus while his throwing arm will boast an extra boost that has been missing since 2006. Stimulants? Steroids? Scandal? No need to panic, he just had LASIK surgery for his eyes and "Tommy John" surgery for his injured elbow. Of course, had he chosen amphetamines to improve his focus or steroids to increase his strength, he would have been banned and berated. 

Society Decides
There is confusion over the means and methods athletes have available to enhance their performance. Certainly, corrective eye surgery to raise your vision level to 20/20 seems fair, but many athletes go into the procedure hoping to come out with enhanced 20/15 or 20/10 eyesight. Replacing a damaged elbow ligament with a tendon doesn't seem like cheating, but what if its done on a healthy elbow hoping for a few more miles per hour on a fastball that has faded over the years?

Earlier this month, a commentary in the journal Nature recommended a fresh look at cognitive-enhancing drugs and where to draw the line in the sand between natural performance and enhanced performance. The authors, an esteemed group of neuroscientists and ethicists, argued that "enhanced" is only defined by the rules set by society.
Certainly, abuse of prescription drugs, such as Ritalin and Adderall, is illegal because of the potential, harmful side effects. Still, reports of the rising use of these drugs by college students and professionals show the demand for options beyond nutrition, exercise and sleep.
These drugs are just the first generation of possible brain boosting supplements, which is why the Nature commentators are calling for an organized, stigma-free approach to evaluating the risks, benefits and ethics of future products.

Even in Major League Baseball, there is mounting evidence that cognitive-enhancing drugs may be on the rise. Since MLB banned amphetamines in 2006, there has been a dramatic rise in the number of therapeutic use exemptions issued to players for attention-deficit disorder diagnoses, for which drugs like Ritalin and Adderall can be legitimately prescribed. In 2006, 28 players applied for the exemption, while a year later there were 103. There is suspicion that many of these ADD diagnoses are just excuses to get the pills.


Legal Jolt

So, what if there was a cognitive-enhancing, sports supplement that increased alertness, concentration, reaction time and focus while also decreasing the perception of muscle fatigue? Even more encouraging, this supplement is sold in millions of outlets and is socially accepted worldwide. It comes in three sizes, tall, grande or venti – coffee. More specifically, caffeine has been the subject of many recent studies of its effectiveness, both cognitively and physiologically.

Earlier this year, Dr. Carrie Ruxton completed a literature survey to summarize 41 double-blind, placebo-controlled trials published over the past 15 years to establish what range of caffeine consumption would maximize benefits and minimize risk for cognitive function, mood, physical performance and hydration. The studies were divided into two categories, those that looked at the cognitive effects and those that looked at physical performance effects.
The results concluded that there was a significant improvement in cognitive functions like attention, reaction time and mental processing as well as physical benefits described as increased "time to exhaustion" and decreased "perception of fatigue" in cycling and running tests.

Given these results, how exactly does caffeine perform these wonderful tricks? Dr. Ruxton explains from the study, "Caffeine is believed to impact on mood and performance by inhibiting the binding of both adenosine and benzodiazepine receptor ligands to brain membranes. As these neurotransmitters are known to slow down brain activity, a blockade of their receptors lessens this effect."
Bottom line, the chemicals in your brain that would cause you to feel tired are blocked, giving you a feeling of ongoing alertness. This pharmacological process is very similar to that of the ADD drugs.

If caffeine is such a clear cut performance enhancing supplement, why did the World Anti-Doping Agency (WADA) first add caffeine to its banned substance list, only to remove it in 2004? At the time that it was placed on the banned list, the threshold for a positive caffeine test was set to a post-exercise urinary caffeine concentration of about 3-4 cups of strong coffee.
However, more recent research has shown that caffeine has ergogenic effects at levels as low as the equivalent of 1-2 cups of coffee. So, it was hard for WADA to know where to draw the line between athletes just having a few morning cups of coffee/tea and those that were intentionally consuming caffeine to increase their performance level.

So, if Chris Capuano has a double espresso before pitching, his brain, eyes and arm should enhance his performance in the game.  Is that an unfair advantage? Science will continue to offer new and improved methods for raising an athlete's game above the competition. Players, league officials and fans will have to decide where to draw the line.

Please visit my other articles on Livescience.com

Why Pro Athletes Attract Trouble



From the "athletes behaving badly" department (in the past month, anyway):
•    NHL bad boy (Sean Avery) was suspended for six games for a crude remark.
•    Six NFL players were suspended for allegedly violating the league's drug policy.
•    Another NFL player (Adam "Pacman" Jones) returned to his team's roster after being suspended, again, for an off-field altercation.
•    Oh, and NFL receiver (Plaxico Burress) accidentally shot himself in a nightclub with a gun he was not licensed to carry. 

Despite the 24/7 media coverage of each of these incidents, sports fans have become accustomed to and somewhat complacent with hearing about athletes and their deviant acts.
In fact, new statistics reveal that bad behavior is clearly evident among high school athletes, particularly in high-contact sports.

It starts young
Besides the highly publicized stories, there are thousands more across the nation involving amateur athletes taking risks both on and off the field. From performance-enhancing supplements to referee/official abuse to fights, guns and recorded crimes, the image of sports as a positive influence on athletes may need a second look.

Granted, in a population of any size there will be a few bad apples. However, these actions have become so prevalent that academic researchers have created a branch of study called "deviance in sports" attached to the sports sociology tree. 

They are asking questions and challenging some assumptions about cause and effect. Is there a connection between sports participation and deviance? Does the intense competition and battle on the field shape a player's off-the-field lifestyle? Since success in sports brings attention and prestige to athletes, does the risk of losing that status cause a need to take risks to maintain their "top dog" positions?

In their new book, "Deviance and Social Control in Sport," researchers Michael Atkinson and Kevin Young emphasize the confusing environment surrounding athletes. They describe two types of deviance: wanted and unwanted.

Owners, players and fans may know that certain behaviors are literally against the rules but are at the same time appreciated as a sign of doing whatever it takes to win.  Performance-enhancing drugs are not allowed in most sports, but athletes assume they will improve their performance, which helps their team win and keeps fans happy. Fights in hockey will be, according to the rule book, penalized, but this deviance is assumed to be wanted by fans and teammates as a sign of loyalty.

However, related bad behavior can quickly turn on a player to being socially unwanted. 

Abuse of drugs that don't contribute to a win, (marijuana, cocaine, alcohol), will transform that same player into a villain with shock and outrage being reported in the media. In the Sean Avery example, a hockey player fighting to defend his teammates on the ice can then be suspended from the team and criticized by those same teammates for an off-color remark.

Real statistics
Most athletes who make it to the professional level have been involved in sports since youth. Sports sociologists and psychologists often look at the early development years of athletes to get a glimpse of patterns, social norms and influences that contribute to later behaviors.

In a recent American Sociological Review article, Derek Kreager, assistant professor of sociology at Penn State University, challenged the long-held belief that youth sports participation is exclusively beneficial to their moral character development. 

With the focus on teaching teamwork, fair play, and self esteem, sports are often cited as the antidote to delinquency. But Kreager notes that other studies have looked at the culture that surrounds high school and college athletes and identified patterns of clichés, privileges and attitudes of superiority. For some athletes, these patterns are used to justify deviant behavior.

In fact, his most recent research attempted to find a cause-and-effect link between deviant behavior and specific sports. Specifically, he asked if high-contact, physical sports like football and wrestling created athletes who were more prone to violent behavior off the field.

Using data from the National Longitudinal Study of Adolescent Health, more than 6,000 male students from across 120 schools were included. The data set included a wide collection of socioeconomic information, including school activities, risk behaviors and at-home influences. Kreager's study analyzed the effects of three team sports (football, basketball, and baseball) and two individual sports (wrestling and tennis) on the likelihood of violent off-field behavior, specifically, fighting.

To isolate the effect of each sport, the study included control groups of non-athletes and those that had a history of physical violence prior to playing sports. 

For team sports, football players were 40 percent more likely to be in a confrontation than non-athletes. In individual sports, wrestlers were in fights 45 percent more often, while tennis players were 35 percent less likely to be in an altercation. Basketball and baseball players showed no significant bias either way.

"Sports such as football, basketball, and baseball provide players with a certain status in society," Kreager said. "But football and wrestling are associated with violent behavior because both sports involve some physical domination of the opponent, which is rewarded by the fans, coaches and other players. Players are encouraged to be violent outside the sport because they are rewarded for being violent inside it."

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Baseball Brains - Fielding Into The World Series

With the crack of the bat, the ball sails deep into the outfield. The center-fielder starts his run back and to the right, trying to keep his eyes on the ball through its flight path. His pace quickens initially, then slows down as the ball approaches. He arrives just in time to make the catch. What just happened? How did he know where to run and at what speed so that he and the ball intersected at the same exact spot on the field. Why didn't he sprint to the landing spot and then wait for the ball to drop, instead of his controlled speed to arrive just when the ball did? What visual cues did he use to track the ball's flight?  Did Willie Mays make the most famous catch in baseball history because he is one of the greatest players of all-time with years of practice? Maybe, but now take a look at this "Web Gems" highlight video of 12 and 13 year-olds from last year's Little League World Series:

Just like we learned in pitching and hitting, fielding requires extensive mental abilities involving eyes, brain, and body movements to accomplish the task. Some physical skills, such as speed, do play a part in catching, but its the calculations and estimating that our brain has to compute that we often take for granted. The fact that fielders are not perfect in this skill, (there are dropped fly balls, or bad judgments of ball flight), begs the question of how to improve? As we saw with pitching and hitting (and most sports skills), practice does improve performance. But, if we understand what our brains are trying to accomplish, we can hopefully design more productive training routines to use in practice.

Once more, we turn to Mike Stadler, associate professor of psychology at University of Missouri, who provides a great overview of current fielding research in his book, "The Psychology of Baseball".

One organization that does not take this skill for granted is NASA. The interception of a ballistic object in mid-flight can describe a left fielder's job or an anti-missile defense system or how a pilot maneuvers a spacecraft through a three dimensional space. In fact, Michael McBeath , a former post doctoral fellow at the NASA Ames Research Center, (now an associate professor at Arizona State University), has been studying fly ball catching since 1995, beginning with his research study, "How baseball outfielders determine where to run to catch fly ball". 

His team developed a rocket-science like theory named Linear Optical Trajectory to describe the process that a fielder uses to follow the path of a batted ball. LOT says the fielder will adjust his movement towards the ball so that its trajectory follows a straight line through his field of vision. Rather than compute the landing point of the ball, racing to that spot and waiting, the fielder uses the information provided by the path of the ball to constantly adjust his path so that they intersect at the right time and place.

The LOT theory is an evolution from an earlier theory called Optical Acceleration Cancellation (OAC) that had the same idea but only explained the fielder's tracking behavior in the vertical dimension. In other words, as the ball leaves the bat the fielder watches the ball rise in his field of vision. If he were to stand still and the ball was hit hard enough to land behind him, his eyes would track the ball up and over his head, or at a 90 degree angle. If the ball landed in front of him, he would see the ball rise and fall but his viewing angle may not rise above 45 degrees. LOT and OAC argue that the fielder repositions himself throughout the flight of the ball to keep this viewing angle between 0 and 90 degrees. If its rising too fast, he needs to turn and run backwards. If the viewing angle is low, then the fielder needs to move forward so that the ball doesn't land in front of him. He can't always make to the landing spot in time, but keeping the ball at about a 45 degree angle by moving will help ensure that he gets there in time. While OAC explained balls hit directly at a fielder, LOT helps add the side-to-side dimension, as in our example of above of a ball hit to the right of the fielder.  More recently, McBeath has successfully defended his LOT theory here and here.

The OAC and LOT theories do agree on a fundamental cognitive science debate. There are two theories of how we perceive the world and then react to it. First, the Information Processing (IP) theory likens our brain to a computer in that we have inputs, our senses that gather information about the world, a memory system that stores all of our past experiences and lessons learned, and a "CPU" or main processor that combines our input with our memory and computes the best answer for the given problem. So, IP would say that the fielder sees the fly ball and offers it to the brain as input, the brain then pulls from memory all of the hundreds or thousands of fly ball flight paths that have been experienced, and then computes the best path to the ball's landing point based on what it has "learned" through practice. McBeath's research and observations of fielders has shown that the processing time to accomplish this task would be too great for the player to react.

OAC and LOT subscribe to the alternate theory of human perception, Ecological Psychology (EP). EP eliminates the call to memory from the processing and argues that the fielder observes the flight path of the ball and can react using the angle monitoring system. This is still up for debate as the IPers would argue "learned facts" like what pitch was thrown, how a certain batter hits those pitches, how the prevailing wind will affect the ball, etc. And, with EP, how can the skill differences between a young ballplayer and an experienced major leaguer be accounted for? What is the point of practice, if the trials and errors are not stored/accessed in memory?

Of course, we haven't mentioned ground balls and their behavior, due to the lack of research out there. The reaction time for a third baseman to snare a hot one-hopper down the line is much shorter. This would also argue in favor of EP, but what other systems are involved?

Arguing about which theory explains a fielder's actions is only productive if we can apply the research to create better drills and practices for our players. The LOT theory seems to be  getting there as an explanation, but there is still debate over EP vs. IP . So many sport skills rely on some of these foundations, that this type of research will continue to be relevant.  As with pitching and hitting, fielding seems to improve with practice.

And then there's the ultimate catch of all-time, that baseball fans have long been buzzing about.  Your reward for getting to the end of this article is this little piece of history...




You were looking for Willie Mays and "The Catch", weren't you?  This ball girl would own the best all-time fielding achievement... if it were real.  But no, just another digital editing marvel.  This was going to be a commercial for Gatorade, then it was put on the shelf.  After it was leaked onto YouTube, the video hoax became a viral hit.  So much so, that Gatorade left it on YouTube and did make a commercial out of it for the 2008 All-Star game.  But, you don't need to tell your Little Leaguers.  Let them dream...

The Big Mo' - Momentum In Sports

A player can feel it during a game when they hit a game-changing home run or when they go 0 for 4 at the plate. A team can feel it when they come back from a deficit late in the game or when their lead in the division vanishes. A fan can feel it as their team "catches fire" or goes "as cold as ice". And, play-by-play announcers love to talk about it. 

We know it as the "Big Mo", the "Hot Hand", and being "In The Zone" while the psychologists call it Psychological Momentum. But, does it really exist? Is it just a temporary shift in confidence and mood or does it actually change the outcome of a game or a season? As expected, there are lots of opinions available.

The Oxford Dictionary of Sports Science defines psychological momentum as, "the positive or negative change in cognition, affect, physiology, and behavior caused by an event or series of events that affects either the perceptions of the competitors or, perhaps, the quality of performance and the outcome of the competition. Positive momentum is associated with periods of competition, such as a winning streak, in which everything seems to ‘go right’ for the competitors. In contrast, negative momentum is associated with periods, such as a losing streak, when everything seems to ‘go wrong’." 


The interesting phrase in this definition is that Psychological Momentum (PM) "affects either the perceptions of the competitors or, perhaps, the quality of performance and the outcome of the competition." Most of the analyses on PM focus on the quantitative side to try to prove or disprove PM's affect on individual stats or team wins and losses.

Regarding PM in baseball, a Wall St. Journal article looked at last year's MLB playoffs, only to conclude there was no affect on postseason play coming from team momentum at the end of the regular season. More recently, Another Cubs Blog also looked at momentum into this year's playoffs including opinion from baseball stats guru, Bill James, another PM buster. For basketball, Thomas Gilovich's 1985 research into streaky, "hot hand" NBA shooting is the foundation for most of today's arguments against the existence of PM, or at least its affect on outcomes.

This view that if we can't see it in the numbers, more than would be expected, then PM does not exist may not capture the whole picture. Lee Crust and Mark Nesti have recommended that researchers look at psychological momentum more from the qualitative side. Maybe there are more subjective measures of athlete or team confidence that contribute to success that don't show up in individual stats or account for teams wins and losses. 


As Jeff Greenwald put it in his article, Riding the Wave of Momentum, "The reason momentum is so powerful is because of the heightened sense of confidence it gives us -- the most important aspect of peak performance. There is a term in sport psychology known as self-efficacy, which is simply a player's belief in his/her ability to perform a specific task or shot. Typically, a player’s success depends on this efficacy. During a momentum shift, self-efficacy is very high and players have immediate proof their ability matches the challenge. As stated earlier, they then experience subsequent increases in energy and motivation, and gain a feeling of control. In addition, during a positive momentum shift, a player’s self-image also changes. He/she feels invincible and this takes the "performer self" to a higher level."

There would seem to be three distinct areas of focus for PM; an individual's performance within a game, a team's performance within a game and a team's performance across a series of games. So, what are the relationships between these three scenarios? Does one player's scoring streak or key play lift the team's PM, or does a close, hard-fought team win rally the players' morale and confidence for the next game? 


Seeing the need for a conceptual framework to cover all of these bases, Jim Taylor and Andrew Demick created their Multidimensional Model of Momentum in Sports, which is still the most widely cited model for PM. Their definition of PM, "a positive or negative change in cognition, affect, physiology, and behavior caused by an event or series of events that will result in a commensurate shift in performance and competitive outcome", leads to the six key elements to what they call the "momentum chain".

First, momentum shifts begin with a "precipitating event", like an interception or fumble recovery in football or a dramatic 3-point shot in basketball. The effect that this event has on each athlete varies depending on their own perception of the game situation, their self-confidence and level of self-efficacy to control the situation.

Second, this event leads to "changes in cognition, physiology, and affect." Again, depending on the athlete, his or her base confidence will determine how strongly they react to the events, to the point of having physiological changes like tightness and panic in negative situations or a feeling of renewed energy after positive events.

Third, a "change in behavior" would come from all of these internal perceptions. Coaches and fans would be able to see real changes in the style of play from the players as they react to the positive or negative momentum chain.

Fourth, the next logical step after behavior changes is to notice a "change in performance." Taylor and Demick note that momentum is the exception not the norm during a game. Without the precipitating event, there should not be noticeable momentum shifts.

Fifth, for sports with head to head competition, momentum is a two-way street and needs a "contiguous and opposing change for the opponent." So, if after a goal, the attacking team celebrates some increased PM, but the defending team does not experience an equal negative PM, then the immediate flow of the game should remain the same. Its only when the balance of momentum shifts from one team to the other. Levels of experience in athletes has been shown to mitigate the effects of momentum, as veteran players can handle the ups and downs of a game better than novices.

Finally, at the end of the chain, if momentum makes it that far, there should be an immediate outcome change. When the pressure of a precipitating event occurs against a team, the players may begin to get out of their normal, confident flow and start to overanalyze their own performance and skills. We saw this in Dr. Sian Beilock's research in our article, Putt With Your Brain - Part 2. As an athlete's skills improve they don't need to consciously focus on them during a game. But pressure brought on by a negative event can take them out of this "automatic" mode as they start to focus on their mechanics to fix or reverse the problem. 


As Patrick Cohn, a sport psychologist, pointed out in a recent USA Today article on momentum, "You stop playing the game you played to be in that position. And the moment you switch to trying not to screw up, you go from a very offensive mind-set to a very defensive mind-set. If you're focusing too much on the outcome, it's difficult to play freely. And now they're worried more about the consequences and what's going to happen than what they need to do right now."


There is no doubt that we will continue to hear references to momentum swings during games. When you do, you can conduct your own mini experiment and watch the reactions of the players and the teams over the next section of the game to see if that "precipitating event" actually leads to a game-changing moment.

ResearchBlogging.org


Jim Taylor, Andrew Demick (1994). A multidimensional model of momentum in sports Journal of Applied Sport Psychology, 6 (1), 51-70 DOI: 10.1080/10413209408406465

Retirement Rebound - The Return of Torres, Favre and Armstrong

Maybe its the fear of turning 40. Maybe its the feeling of unfinished business. Maybe its the fire in the belly that has not quite extinguished. For retired elite athletes, the itch is always there to make a return after experiencing "life after sport". For some, it becomes too strong to ignore. 

This year has seen the return of at least three champions, Dara Torres, Lance Armstrong and Brett Favre. As they explain their individual reasons for coming back, some similarities emerge that have more to do with psychological needs than practical needs. In a recent Miami Herald article, Torres explained her comeback to competitive swimming at age 41, "For me, it's not like I sat around and watched swimming on TV and thought, `Oh, I wish I was still competing'. It was more gradual. But all of a sudden, something goes off inside you and you start seriously thinking about a comeback. You'd think the competitive fire would die down with maturity, but I've actually gotten worse. I wasn't satisfied with silver medals. I hate to lose now more than I did in my 20s. I'm still trying to figure out why.''

Drawing inspiration from Torres, Lance Armstrong has decided to make a comeback at age 37 with a declared goal to win his eighth Tour de France. In a recent Vanity Fair article, he described his rationale, “Look at the Olympics. You have a swimmer like Dara Torres. Even in the 50-meter event [freestyle], the 41-year-old mother proved you can do it. The woman who won the marathon [Constantina Tomescu-Dita, of Romania] was 38. Older athletes are performing very well. Ask serious sports physiologists and they’ll tell you age is a wives’ tale. Athletes at 30, 35 mentally get tired. They’ve done their sport for 20, 25 years and they’re like, I’ve had enough. But there’s no evidence to support that when you’re 38 you’re any slower than when you were 32."

Is it the 40 factor? Brett Favre, who turns 39 in October, made his well-publicized return to the NFL last month wanting to return so badly that he accepted a trade to the New York Jets so that he could play. His public and emotional decision to retire in March, only to begin hinting at a comeback in early summer showed the internal struggle he had with stepping away from sports. 


You could hear the indecision in his retirement press conference, "I've given everything I possibly can give to this organization, to the game of football, and I don't think I've got anything left to give, and that's it.", Favre said. "I know I can play, but I don't think I want to. And that's really what it comes down to. Fishing for different answers and what ifs and will he come back and things like that, what matters is it's been a great career for me, and it's over. As hard as that is for me to say, it's over. There's only one way for me to play the game, and that's 100 percent. Mike and I had that conversation the other night, and I will wonder if I made the wrong decision. I'm sure on Sundays, I will say I could be doing that, I should be doing that. I'm not going to sit here like other players maybe have said in the past that I won't miss it, because I will. But I just don't think I can give anything else, aside from the three hours on Sundays, and in football you can't do that. It's a total commitment, and up to this point I have been totally committed." 

Some observers point to the end of the Packers' 2007-2008 season with a heart-wrenching Favre interception in overtime that sent the Giants to the Super Bowl instead of Green Bay. Being that close to the pinnacle of his sport must have been confidence that his skills had not diminished and once the fatigue of the past season had passed (by about June), that he was not ready to just ride the tractor in Mississippi for the next 40 years.

So, what do the sport psychologists make of these second thoughts? These three athletes are world famous, but what about the hundreds of professional athletes that have had to make the same decision without all of the front page stories and fanfare? Why does Chris Chelios, all-star and future Hall of Famer in the NHL, continue to avoid the retirement decision at age 45? 


Coaches aren't immune either. Bobby Bowden of Florida State and Joe Paterno of Penn State have refused to retire to the point of becoming an awkward story for their schools and fans. ''After all the adulation and excitement wear off and elite athletes come face to face with retirement and a more mundane life, they suffer a sense of loss, almost like a death,'' said sport psychologist John F. Murray. "If you're Lance Armstrong, you realize that what you are is a cyclist, that is your identity, and if you feel you have one or two more titles in you, why let it go? Why not tackle unresolved challenges? Competing at that level provides a high that is hard to match. How can you not be addicted to that?''

Beyond the professional ranks, thousands of college and Olympic athletes are left with the realization that they face similar decisions of when to "give up the dream" and move into the more practical world of finishing their education and finding a job. Their emotional attachment to their sport has developed over years of building an identity linked to their success on the field. 


Despite the statistics showing the "funnel effect" of the diminishing number of athletes getting to the "next level", younger athletes continue to believe they are the ones that will make it to the top. There is also the more emotional issue of unwillingly leaving a sport because of injury or simply not making the team due to diminished skills. Dr. Murray adds, "When your whole life has been geared toward athletic excellence, the prospects of retirement can be dreadful! This is commonplace at collegiate level where 99 per cent of the athletes do not go on to play their sport professionally. Counseling is a way to prepare athletes for the inevitable loss that occurs after the glory is over and only memories remain. As with any loss, people need effective ways to cope. Going at it all on your own might work for some, but I’ll submit that the vast majority of athletes benefit from early discussion and planning for retirement. There is definitely life after sport."

Some colleges and universities, as well as some professional teams, have started to offer formal "retirement planning" for athletes as their formal sport careers wind down. Life After Sports, a counseling firm started by Adrian McBride, a former college and NFL player, provides services to retiring college athletes to help them emotionally and practically adjust to a post-sports life. The University of North Carolina has set-up the Center for the Study of Retired Athletes to offer a home for academic research into these issues.

Additional academic research is also coming out on athlete retirement including two articles this year (see citations below) from the Journal of Applied Sport Psychology. First, Katie Warriner and David Lavallee of the University of Wales interviewed former elite gymnasts regarding their retirement at a relatively young age from competitive sport. They found the loss of identity to be the biggest adjustment. Second, Patricia Lally and Gretchen Kerr looked at how parents cope with their children's "retirement" from sport, as they also go through withdrawl symptoms when the "end of the dream" finally comes and the lifelong ambition for their child's athletic success is over.

Who's next up for a retirement rebound? Just as Lance got inspiration from Torres and maybe Favre, the trend may continue. The Bulls could use Jordan or Pippen and Roger Clemens is never far away from a phone. Stay tuned!

ResearchBlogging.org



Katie Warriner, David Lavallee (2008). The Retirement Experiences of Elite Female Gymnasts: Self Identity and the Physical Self Journal of Applied Sport Psychology, 20 (3), 301-317 DOI: 10.1080/10413200801998564

Patricia Lally, Gretchen Kerr (2008). The Effects of Athlete Retirement on Parents Journal of Applied Sport Psychology, 20 (1), 42-56 DOI: 10.1080/10413200701788172

Putt With Your Brain - Part 2

If there is a poster child sport for our favorite phrase, "Sports Are 80 Percent Mental", it must be golf. Maybe its the slow pace of play that gives us plenty of time to think between shots. Maybe its the "on stage" performance feeling we get when we step up to that first tee in front of our friends (or strangers!) Maybe its the "high" of an amazing approach shot that lands 3 feet from the cup followed by the "low" of missing the birdie putt. 

From any angle, a golf course is the sport psychologist's laboratory to study the mix of emotions, confidence, skill execution and internal cognitive processes that are needed to avoid buying rounds at the 19th hole. Last time, we looked at some of the recent research on putting mechanics, but, as promised, we now turn to the mental side of putting. Sian Beilock and her team at the University of Chicago's Human Performance Lab recently released the latest of a string of research studies on sports performance, or more specifically, how not to choke under pressure. Lucky for us, they chose putting as their sport skill of choice. This ties in with Dr. Beilock's theory of embodied cognition that we featured in Watching Sports Is Good For Your Brain.

An underlying theme to this work is the concept of automaticity, or the ability to carry out sport skills without consciously thinking about them. Performing below expectations (i.e. choking) starts when we allow our minds to step out of this automatic mode and start thinking about the steps to our putting stroke and all of those "swing thoughts" that come with it ("keep your elbows in", "head down", "straight back").


Our brain over analyzes and second-guesses the motor skills we have learned from hundreds of practice putts. Previously, we looked at automaticity in other sports. Of course, a key distinction to the definition of choking is that you are playing "well below expectations". If you normally shoot par, but now start missing easy putts, then there may be distractions that are taking you out of your normal flow. Choking implies a temporary and abnormal event. Automaticity theory would claim that it is these distractions from some perceived pressure to perform that are affecting your game.

Most research into sport skill performance divides the world into two groups, novices and experts. Most sports have their own measures of where the dividing line is between these groups. Expertise would imply performance results not just experience. So, a golfer who has been hacking away for 20 years but still can't break 100 would still be put in the "novice" category.


Sport scientists design experiments that compare performance between the groups given some variables, and then hypothesize on the reason for the observed differences. Beilock, et al have looked at golf putting from several different angles over the years. Their research builds on itself, so let's review in reverse chronological order.

Back in 2001, they began by comparing the two competing theories of choking, distraction theory vs. explicit monitoring theory, and designed a putting experiment to find the better explanation. Distraction theory explains choking by assuming that the task of putting requires your direct attention and that high pressure situations will cause you to perform dual tasks - focus on your putting but also think about the pressure. This theory assumes there is no automaticity in skill learning and that we have to focus our attention on the skill every time.


Explicit monitoring theory claims that over time, as we practice a skill to the point of becoming an "expert", we proceduralize the task so that it becomes "automatic". Then, during a high pressure situation, our brain becomes so concerned about performance that it takes us out of automatic mode and tries to focus on each step of the task. The research supported the explicit monitoring theory as it was shown that the golf putting task was affected by distractions and pressure for the experts but not the novice putters.

So, how do we block out the pressure, so that our automaticity can kick in? Another 2001 study by Beilock looked at mental imagery during putting. Using the same explicit monitoring theory, should we try to think positive thoughts, like "this ball is going in the hole" or "I have made this putt many times"? Also, what happens if a stray negative thought, "don't miss this one!" enters our brain? Should we try to suppress it and replace it with happy self-talk? She set up four groups, one receiving positive comments, one receiving negative comments, one receiving negative comments followed by positive comments and one receiving none as a control group.


As expected, the happy people did improve their putting over the course of the trials, while the negative imagery hurt performance. But, the negative replaced with positive thought group did not show any more improvement over the control group. So, when faced with a high pressure, stressful situation ripe with the possibilities of choking, try to repeat positive thoughts, but don't worry too much if the occasional doubt creeps in.

Our strategy towards putting should also vary depending on our current skill level. While learning the intricacies of putting, novices should use different methods than experts, according to a 2004 study by Beilock, et al. Novice golfers need to pay attention to the step by step components of their swing, and they perform better when they do focus on the declarative knowledge required. 


Expert golfers, however, have practiced their swing or putt so often that it has become "second nature" to the point that if they are told to focus on the individual components of their swing, they perform poorly. The experiment asked both novices and expert golfers to first focus on their actual putting stroke by saying the word "straight" when hitting the ball and to notice the alignment of the putter face with the ball. Next, they were asked to putt while also listening for a certain tone played in the background. When they heard the tone they were to call it out while putting. 

The first scenario, known as "skill-focused", caused the novices to putt more accurately but the experts to struggle. The second scenario, called "dual-task", distracted the novices enough to affect their putts, while the experts were not bothered and their putting accuracy was better. Beilock showed that novices need the task focus to succeed while they are learning to putt, while experts have internalized the putting stroke so that even when asked to do two things, the putting stroke can be put on "auto-pilot".

Finally, in 2008, Beilock's team added one more twist to this debate. Does a stress factor even affect a golfer's performance in their mind before they putt? This time, golfers, divided into the usual novice and expert groups, were asked to first imagine or "image execute" themselves making a putt followed by an actual putt. The stress factor was to perform one trial under a normal, "take all the time you need" time scenario and then another under a speeded or time-limited scenario. 


The novices performed better under the non-hurried scenario in imagining the putt first followed by the actual putt. The experts, however, actually did better in the hurried scenario and worse in the relaxed setting. Again, the automaticity factor explains the differences between the groups.

The bottom line throughout all of these studies is that if you're learning to play golf, which includes putting, you should focus on your swing/stroke but beware of the distractions which will take away your concentration. That seems pretty logical, but for those that normally putt very well, if you feel stress to sink that birdie putt, don't try to focus in on the mechanics of your stroke. Trust the years of experience that has taught your brain the combination of sensorimotor skills of putting.

Just remember the Chevy Chase/Ty Webb philosophy; "I'm going to give you a little advice. There's a force in the universe that makes things happen. And all you have to do is get in touch with it, stop thinking, let things happen, and be the ball.... Nah-na-na-na, Ma-na-na-na...."


ResearchBlogging.orgSian L. Beilock, Thomas H. Carr (2001). On the fragility of skilled performance: What governs choking under pressure? Journal of Experimental Psychology: General, 130 (4), 701-725 DOI: 10.1037//0096-3445.130.4.701

Sian L. Beilock; James A. Afremow; Amy L. Rabe; Thomas H. Carr (2001). "Don't Miss!" The Debilitating Effects of Suppressive Imagery on Golf Putting Performance Journal of Sport and Exercise Psychology, 23 (3)

Beilock S.L.; Bertenthal B.I.; McCoy A.M.; Carr T.H. (2004). Haste does not always make waste: Expertise, direction of attention, and speed versus accuracy in performing sensorimotor skills Psychonomic Bulletin & Review, 11 (2), 373-379

Sian Beilock, Sara Gonso (2008). Putting in the mind versus putting on the green: Expertise, performance time, and the linking of imagery and action The Quarterly Journal of Experimental Psychology, 61 (6), 920-932 DOI: 10.1080/17470210701625626

Imagine Winning Gold In Beijing

Imagine winning a gold medal at the Beijing Olympics.  No really, go ahead, close your eyes and visualize it.  What did you see?  Were you standing on the medal platform looking out at the crowd, waving and taking in the scene through your own eyes, or were you a spectator in the crowd watching yourself getting the medal put around your neck?  This choice between "first-person" or "third-person" visualization actually makes a difference on our motivation to achieve a future goal.


Noelia A. Vasquez, at York University and Roger Buehler, at Wilfrid Laurier University wanted to see if there was a link between our visualization perspective and our motivation level to achieve the imagined goal.  They asked 47 university students to imagine the successful completion of a performance task that was in their near future, whether it be a speech in a class or an upcoming athletic competition.  They were also asked to assume that the task went extremely well.  One group of students were asked to imagine this scene "through their own eyes" seeing the environment as they would actually experience it.  The second group was told to use the third-person perspective, pretending they were "in the crowd" watching themselves as others would see them achieving this goal.  Next, they were given a survey that asked each group how motivated they were to now go make this successful scene a reality. 


As hypothesized, the group that saw the scene through their audience's eyes (third-person) ranked their motivation to now succeed significantly higher than those that imagined it through their own eye (first-person).  The authors' explanation for this is the perceived additional importance attached to the task when we consider other peoples' opinion of us and our natural desire to increase our status in our peer group.  Seeing this newly elevated social acceptance and approval of ourselves from the eyes of our peers motivates us even more to reach for our goals.


The road to achievements like an Olympic gold medal is a long one with many steps along the way.  Over the years, as athletes maintain their training regimen, they can keep imagining the future goal, but they may need to also look back and recognize the improvements they have made over time.  This "progress to date" assessment will also provide motivation to keep going once they realize the hard work is actually having the desired effect and moving them along the desired path.  So, as they review their past to present progress, does the first or third person perspective make a difference there as well?



Researchers from Cornell, Yale and Ohio State, led by Thomas Gilovich, professor of psychology at Cornell, designed an experiment to find out.  They recruited a group of university students who had described their high-school years as "socially awkward" to now recall those years and compare them with their social skill in college.  The first group was asked to recall the past from a first-person perspective, just as their memories would provide them.  The second group was asked to remember themselves through the perspective of their classmates (third-person).  Next, each group was asked to assess the personal change they had accomplished since then.


As predicted, the group that had recalled their former selves in the third person reported greater progress and change towards a more social and accepted person in college than the group that remembered in the first-person.  "We have found that perspective can influence your interpretation of past events. In a situation in which change is likely, we find that observing yourself as a third person -- looking at yourself from an outside observer's perspective -- can help accentuate the changes you've made more than using a first-person perspective," says Gilovich.  "When participants recalled past awkwardness from a third-person perspective, they felt they had changed and were now more socially skilled," said Lisa K. Libby, an assistant professor of psychology at Ohio State University. "That led them to behave more sociably and appear more socially skilled to the research assistant."


So, whether looking forward or backward, seeing yourself through other's eyes seems to provide more motivation to not only continue the road to success, but to appreciate the progress you have made. 


Then the actual day of competition arrives.  It is one hour before you take your position on the starting blocks at the "Bird's Nest" stadium in Beijing or on the mat at the National Indoor Stadium for the gymnastics final.  Should you be imagining the medal ceremony and listening to your country's national anthem at that point?  In a recent Denver Post article, Peter Haberl, senior sports psychologist for the U.S. Olympic Committee says, "It takes a great deal of ability and skill to stay focused on the task at hand."  

He distinguishes between an "outcome" goal, (receiving the medal) and "performance" (improving scores/times) and "process" (improving technique) goals.  "The difference is that these types of goals are much more under the control of the athlete," explains Haberl. "The process goal, in particular, directs attention to the here and now, which allows the athlete to totally focus on the doing of the activity; this is key to performing well.  This sounds simple but it really is quite difficult because the mind takes you to the past and the future all the time, particularly in the Olympic environment with its plethora of distractions and enticing rewards." 


Mental imagery is a well-known tool for every athlete to make distant and difficult goals seem attainable.  By seeing your future accomplishments through the eyes of others, you can attach more importance and reward to achieving them.  Just imagine yourself in London in 2012!

ResearchBlogging.org

Vasquez, N.A. (2007). Seeing Future Success: Does Imagery Perspective Influence Achievement Motivation?. Personality and Social Psychology Bulletin, 33(10), 1392-1405.


Libby, L.K., Eibach, R.P., Gilovich, T. (2005). Here's Looking at Me: The Effect of Memory Perspective on Assessments of Personal Change.. Journal of Personality and Social Psychology, 88(1), 50-62. DOI: 10.1037/0022-3514.88.1.50

HGH - Human Growth Hoax?

Athletes, both professional and amateur, as well as the general public are convinced that human growth hormone (HGH), Erythropoietin (EPO) and anabolic-androgenic steroids (AAS) are all artificial and controversial paths to improved performance in sports.  The recent headlines that have included Barry Bonds, Marion Jones, Floyd Landis, Dwayne Chambers, Jose Canseco, Jason Giambi, Roger Clemens and many lesser known names (see the amazingly long list of doping cases in sport) have referred to these three substances interchangeably leaving the public confused about who took what from whom.  With so many athletes willing to gamble with their futures, they must be confident that they will see significant short-term results.  

So, is it worth the risk?  Two very interesting recent studies provide some answers on at least one of the substances, HGH.


A team at the Stanford University School of Medicine, led by Hau Liu MD, recently reviewed 27 historical studies on the effects of HGH on athletic performance, dating back to 1966 (see reference below).  They wanted to see if there were any definitive links between HGH use and improved results.  In some of the studies, test volunteers who received HGH did develop more lean body mass, but also developed more lactate during aerobic testing which inhibited rather than helped performance.  While their muscle mass increased, other markers of athletic fitness, such as VO2max remained unchanged.  “The key takeaway is that we don’t have any good scientific evidence that growth hormone improves athletic performance,” said senior author Andrew Hoffman, MD, professor of endocrinology, gerontology and metabolism.



Both Liu and Hoffman cautioned that the amounts of HGH given to these test subjects may be much lower than the the purported levels claimed to be taken by professional athletes.  They also pointed out that at a professional level, a very slight improvement might be all that is necessary to get an edge of your opponent.  Hoffman also added an insightful comment, “So much of athletic performance at the professional level is psychological.”  If an athlete takes HGH, sees some muscle mass growth and isn't 100% sure of its performance capabilities, might he assume he now has other "Superman" powers?



That is exactly the premise that a research team from Garvan Institute of Medical Research in Sydney, Australia used to find out if HGH users simply relied on a placebo effect.  Sixty-four participants, young adult recreational athletes, were divided into two groups of 32 and tested for a baseline of athletic ability in endurance, strength, power and sprinting.  One group received growth hormone and the other group received a simple placebo.  It was a "double-blind" study in that neither the participants nor the researchers knew during the testing which substance each group received.



At the end of the 8 week treatment, the athletes were asked if they thought they were in the HGH group or the placebo group.  Half of the group that had received the placebo incorrectly guessed that they were on HGH.  Not too surprisingly, the majority of the "incorrect guessers" were men.  Here's where it gets interesting.  The incorrect guessers also thought that their athletic abilities had improved over the 8 week period.  The team retested all of the placebo group and actually did find improvement across all of the tests, but only significantly in the high-jump test.


Jennifer Hansen, a nurse researcher and Dr. Ken Ho, head of the pituitary research unit at Garvan have not released the data on the group that did receive the HGH, but they will in their final report coming soon.



So, let's recap.  On the one hand, we have a research review that claims there is not yet any scientific evidence that HGH actually improves sports performance.  Yet, we have hundreds, if not thousands, of athletes illegally using HGH for performance gain.  Showing the effect of the "if its good enough for them, its good enough for me" beliefs of the public regarding professional athlete use of HGH, we now have research that shows even those who received a placebo, but believed they were taking HGH not only thought they were improving but actually did improve a little.  Once again, we see the power of our own natural, non-supplemented brain to convince (or fool) ourselves to perform at higher levels than we thought possible.





ResearchBlogging.org


Liu, H., Bravata, D.M., Olkin, I., Friedlander, A., Liu, V., Roberts, B., Bendavid, E., Saynina, O., Salpeter, S.R., Garber, A.M. (2008). Systematic review: the effects of growth hormone on athletic performance.. Annals of Internal Medicine, 148(10), 747-758.

Sideline Raging Soccer Moms (and Dads!)

Visit any youth soccer field, baseball diamond, basketball court or football field and you will likely see them:  parents behaving badly.  Take a look at this Good Morning America report:

These are the extremes, but at most games, you can find at least one adult making comments at the referee, shouting at their child, or having a verbal exchange with another parent.  Thankfully, these parents represent only a small percentage of those attending the game.  Does that mean the others don't become upset at something during the game?  Usually not, as there are lots of opportunities to dispute a bad call or observe rough play or react to one of these loud parents.  

The difference is in our basic personality psyche, according to Jay Goldstein, a kinesiology doctoral student at the University of Maryland School of Public Health.  His thesis, recently published in the Journal of Applied Social Psychology (see reference below), hypothesized that a parent with "control-oriented" personality would react to events at a game more than a parent with an "autonomy-oriented" personality.

According to Goldstein, defending our ego is what usually gets us in trouble when we feel insulted or take something personally.  At youth sports games, we transfer this pride to our kids, so if someone threatens their success on the field, we often take it personally.  The control-oriented parent is more likely to react with a verbal or sometimes physical response, while an autonomy-oriented parent is better able to internalize and maintain their emotions.  This "control" vs. "autonomy" comparison has also been seen in research on "road rage", when drivers react violently to another driver's actions.

Goldstein and his team focused their research on suburban Washington soccer parents back in 2004.  They designed a survey for parents to fill out prior to watching a youth soccer game that would help categorize them as control or autonomy-oriented.  Immediately after the game ended, another survey was given to the parents that asked about any incidents during the game that made them angry on a scale of 1, slightly angry, to 7, furious.  They were also asked what action they took when they were angry.  Choices included "did nothing" to more aggressive acts like walking towards the field and/or yelling or confronting either the referee, their own child, or another player/parent.  53% of the 340 parents surveyed reported getting angry at something during the game, while about 40% reported doing something about their anger.

There was a direct and significant correlation between control-oriented parents, as identified in the pre-game survey, and the level of angry actions they took during the game.  Autonomy-oriented parents still got mad, but reported less aggressive reactions.  As Goldstein notes, “Regardless of their personality type, all parents were susceptible to becoming more aggressive as a result of viewing actions on the field as affronts to them or their kids.  However, that being said, it took autonomy-oriented parents longer to get there as compared to the control-oriented parents.”

So, now that we know the rather obvious conclusion that parents who yell at other motorists are also likely to yell at referees, what can we do about it?  Goldstein sees this study as a first step.  He hopes to study a wider cross-section of sports and socio-economic populations.  Many youth sports organizations require parents to sign a pre-season "reminder" code of conduct, but those are often forgotten in the heat of the battle on the field.  

Maybe by offering the same type of personality survey prior to the season, the "control-oriented" parents can be offered resources to help them manage their tempers and reactions during a game.  Since referees were the number one source of frustration reported by parents, two solutions are being explored by many organizations; more thorough referee training and quality control while also better training of parents on the rules of the game which often cause the confusion.

Sports contests will always be emotional, from kids' games all the way up to professionals.  Keeping the games in perspective and our reactions positive are tough things to do but when it comes to our kids, it is required.

ResearchBlogging.org

Goldstein, J.D., Iso-Ahola, S.E. (2008). Determinants of Parents' Sideline-Rage Emotions and Behaviors at Youth Soccer Games. Journal of Applied Social Psychology, 38(6), 1442-1462. DOI: 10.1111/j.1559-1816.2008.00355.x

The Sports Cognition Framework



So, why should athletes and coaches be interested in all of this cognitive science stuff? They have been playing and coaching these sports for years, practicing with the same drills and routines and having success. Some may say, "if it ain't broke..." At the same time, all players and coaches are looking for the "the Edge"; the practice technique, game strategy, player development skill that will help the bottom line; winning. The physical training attributes still need to be developed in terms of raw speed, acceleration, agility, strength and balance. Hours are spent in the training rooms and gyms improving these variables. The game preparation process is still there; watching film, breaking down strengths and weaknesses of the opponent, tactical planning, etc. Some may say that is the "mental preparation" needed for competition. That's true, it is a plan for success, but the key is in execution of the plan. At the exact moment in the game when execution is needed, will each player know the right thing to do and be able to do it? That is the essence of what I call the "Sports Cognition Framework". It is the combination of the three themes: decision-making competence (knowing what to do), motor skill competence (being physically able to do it), and positive mental state (being motivated and confident to do it). There seem to be many, deep areas of research into each of these topics. My job is to dig into each of these areas and look for relevant research that you will find practical to include in your training or your coaching.

Where Does Sport Psychology Fit?

As I outline my framework for researching the neuro-motor skills necessary for sports, I have debated where the discipline of "sport psychology" fits. Obviously, the topics of motivation, fear, anxiety, concentration, imagery and leadership are critical to the success of any athlete, and are often included under the heading of sport psychology. I can see more application of these ideas in the realm of decision theory than the core skills. An athlete does not perform in a vacuum. His decisions on the field are affected by his emotions, his confidence level, his fear of failure. For example, what effect does the game situation have on a pitcher's skill level? If the score is 0-0, with no one on base and 2 outs in the first inning, not only will his pitch selections and execution be determined by his rational, tactical decisions, but also by his confidence level at that point. Did his last outing go well? Has he had a good month of starts, or is he nervous about getting through this game? Athletes are humans, not robots. Their confidence, motivation and emotions cannot be detached from their skills. The degree to which they can keep their feelings under control are a measure of their maturity as a player but all athletes are somewhere along the continuum. Based on this assumption, we will definitely dig into this "emotional intelligence", to borrow the phrase from Daniel Goleman, but will separate the topics initially and address their intersection later.