Wednesday, November 23, 2016

On this fine Thanksgiving Thursday, the hunting and conservation Organization, PHEASANTS FOREVER, are spot on and show intelligent insight in their acknowledgement that predators and prey, in this case Coyotes and Pheasants, have positively existed together for millennium in rough equilibrium,,,,,,,,,,,,,,Imbalances of any animal species has more to due with our disruption of their habitat than it has to do with the impacts of the predator suite existing in a given locale..................."The bottom line is while predator removal and exclusion methods can increase nesting success on small areas, these methods are too expensive for use on a landscape basis and do not significantly increase the number of nesting birds over the long term"........................ "Through the addition and management of habitat, we not only decrease the impact predators have on existing nests, but also increase the number of nests and population size in an area"..................... "Predators will continue to eat pheasants and their nests, but weather and habitat conditions will drive population fluctuations"

https://www.pheasantsforever.org/Habitat/Why-Habitat/Pheasant-Facts/Effects-of-Predators.aspx

EFFECTS OF PREDATORS

HABITAT MANAGEMENT DECREASES PREDATION



Few subjects generate as much concern and misunderstanding among pheasant hunters as predators and their impact on pheasant populations. Many over look that one of the best management practices to reduce predation rates of ring-necked pheasants is to increase wildlife habitat.
The best way to minimize the threat of predators? Make their job tougher with more upland habitat. Photo by PF Life Member Craig Armstrong
The best way to minimize the threat of predators? 
Make their job tougher with more upland habitat. 
Photo by PF Life Member Craig Armstrong

PHEASANT ECOLOGY: PREDATORS

No single predator gets more blame for pheasant predation than coyotes, but research over several decades has proven that coyotes focus their foraging on rodents and rabbits and do not take adult pheasants or nests as frequently as the other mammalian predators (red fox, striped skunk and raccoon). In addition, the larger home range and territorial nature of coyotes can actually result in lower populations of these other, more destructive predators. Predation accounts for three-fourths of unsuccessful nests, and nearly all of adult mortality (excluding hunting) is directly predator related.

Bottom line: Through the addition and management of habitat, we not only decrease the impact predators have on existing nests, but also increase the number of nests and population size in the area. This management comes at a fraction of the cost of other predator reduction methods. 

MORE HABITAT, LESS PREDATION, BEST OUTCOME

Less-expensive methods to improve game bird populations and nesting success exist. Experts have focused on the amount of habitat (composition of the landscape) and the arrangement (configuration) that increase nesting success by reducing the effectiveness of predators. Well-designed habitat projects can reduce predation by up to 80 percent.
A lack of quality cover can make pheasants susceptible to predators – of both aerial and ground variety.
A lack of quality cover can make pheasants susceptible 
to predators – of both aerial and ground variety.
Larger patches of nesting cover (more than 40 acres) have significantly higher rates of nest success than smaller sized patches. For example, in agricultural landscapes where the primary form of grassland habitat is road and drainage ditches, predator activity is concentrated on those smaller strips of cover. In landscapes having a greater component of grassland habitat, predator activity is diluted throughout the many patches of habitat. In addition to diluting predator activity, high grassland landscapes reduce the efficiency of predators.
Cover quality is also important. Dense blocks of undisturbed cover, such as Conservation Reserve Program acreage that is not mowed or grazed, are the most effective at reducing predation. Dense mixtures of grasses and forbs offering good residual cover after winter are highly selected by pheasant hens because they conceal nests from both avian and mammalian predators.

PREDATOR REMOVAL: A SMALL SCALE REMEDY

Early attempts to decrease the impact of predators on pheasant populations focused on reducing the overall number of predators, mainly through trapping. These efforts are effective for small areas but are dependent on three important factors.
  • Trapping efforts must reduce nest predator populations during the key period of recruitment—beginning prior to, and continuing throughout the entire pheasant nesting season (approximately 100 days). 
  • Trapping needs to extend beyond the boundaries of the controlled area. Most nest predators have large home ranges and if trapping efforts fail to account for this, predators from surrounding areas will still negatively impact nesting success within the controlled area. 
  • Most importantly, a successful removal program is a professional, full-time effort. The occasional removal of individual animals by hunters has very little impact on predator populations and trapping efforts that rely on bounties are destined to fail.
It is important to understand that sustained trapping efforts tend to stimulate reproduction by predators (compensating for artificially low densities) and create populations with proportionately more juveniles that wander more across the landscape thereby increasing the chances of encountering pheasants.

SUMMARY

While predator removal and exclusion methods can increase nesting success on small areas, these methods are too expensive for use on a landscape basis and do not significantly increase the number of nesting birds over the long term. Through the addition and management of habitat, we not only decrease the impact predators have on existing nests, but also increase the number of nests and population size in an area. Predators will continue to eat pheasants and their nests, but weather and habitat conditions will drive population fluctuations.

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