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Start Over Author "SITTERS, HUMPHREY P." Topic delaware bay
5 results on '"SITTERS, HUMPHREY P."'

1. Effects of Horseshoe Crab Harvest in Delaware Bay on Red Knots: Are Harvest Restrictions Working?

Author

Niles, Lawrence J., Bart, Jonathan, Sitters, Humphrey P., Dey, Amanda D., Clark, Kathleen E., Atkinson, Phillip W., Baker, Allan J., Bennett, Karen A., Kalasz, Kevin S., Clark, Nigel A., Clark, Jacquie, Gillings, Simon, Gates, Albert S., González, Patricia M., Hernandez, Daniel E., Minton, Clive D. T., Morrison, R. I. Guy, Porter, Ronald R., Ross, R. Ken, and Veitch, C. Richard

Published
2009
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4. Rates of mass gain and energy deposition in red knot on their final spring staging site is both time- and condition-dependent

Author

Atkinson, Philip W., Baker, Allan J., Bennett, Karen A., Clark, Nigel A., Clark, Jacquie A., Cole, Kimberly B., Dekinga, Anne, Dey, Amanda, Gillings, Simon, Gonzalez, Patricia M., Kalasz, Kevin, Minton, Clive D. T., Newton, Jason, Niles, Lawrence J., Piersma, Theunis, Robinson, Robert A., Sitters, Humphrey P., and Piersma group

Subjects
phenotypic flexibility, WESTERN SANDPIPERS, AFFECTS FORAGING DECISIONS, SHOREBIRD PREDATION, MIGRATION, spare capacity, TRADE-OFFS, CALIDRIS-CANUTUS, time-minimization, STOPOVER SITE, migration strategy, BODY-MASS, DELAWARE BAY
Abstract

1. Millions of shorebirds migrate each year through a small number of highly productive staging areas where they often conflict with fisheries interests. Delaware Bay, USA, is a major shorebird stopover site where, in spring, many thousands of shorebirds undergo rapid mass gain by feeding on the eggs of commercially harvested horseshoe crabs Limulus polyphemus. 2. Environmental factors may cause deviations from the best migration schedule. We used within-year mass gain data from red knot Calidris canutus caught in Delaware Bay between 1998 and 2005 to determine the degree of flexibility individuals have to vary migration speed. 3. Mass gain by birds below 133 g was shown to comprise 15.3% fat (39 kJ g(-1)), the remainder being lean mass (6 kJ g(-1)). Above this critical level, fat comprised 83.9% of mass deposition. The rates of energy deposition (kJ d(-1)) were therefore fundamentally different between the two states but were among the highest ever recorded among vertebrates (5-7 x basic metabolic rate). 4. A total of 36-62% of the variation in observed rates of energy deposition between 1998 and 2002 was explained by a year factor, date and mass at initial capture and interaction terms, such that light-weight birds at the end of May had rates of mass gain or energy deposition two to three times higher than birds of similar mass in mid-May, indicating that birds were attempting to achieve a certain mass by a certain date. In 2003 and 2005, this relationship broke down as a result of lower densities of eggs. 5. Synthesis and application. The maintenance of high densities of crab eggs required for high rates of mass gain in red knot requires severe cuts in, or the complete cessation of, the crab harvest, reduced human and raptor-related disturbance as well as management of beaches to provide sufficient crab-spawning habitat. These findings are widely applicable to other systems where harvesting activities come into conflict with migrating animals and show that certain sections of the population, in this case the long-distance migrants from South America, will be impacted more than short-distance migrants whose physiology may give them access to altto alternative food resources.

Published
2007

5. STATUS OF THE RED KNOT (CALIDRIS CANUTUS RUFA) IN THE WESTERN HEMISPHERE.

Author

Niles, Lawrence J., Sitters, Humphrey P., Dey, Amanda D., Atkinson, Philip W., Baker, Allan J., Bennett, Karen A., Carmona, Roberto, Clark, Kathleen E., Clark, Nigel A., Espoz, Carmen, Gonzalez, Patricia M., Harrington, Brian A., Hernandez, Daniel E., Kalasz, Kevin S., Lathrop, Richard G., Matus, Ricardo N., Minton, Cleve D. T., Morrison, R. I. Guy, Peck, Mark K., and Pitts, William

Abstract

The population of the rufa subspecies of the Red Knot (Calidris canutus), which breeds in the central Canadian Arctic and mainly winters in Tierra del Fuego, has declined dramatically over the past 20 yr. Previously estimated at 100,000-150,000, the population now numbers 18,000-33,000 (18,000 if just the Tierra del Fuego birds are C. c. rufa, more if the Red Knots of uncertain subspecific status that winter in northern Brazil (7,500) or Florida (7,500) are also C. c. rufa). Counts show that the main Tierra del Fuego wintering population dropped from 67,546 in 1985 to 51,255 in 2000, 29,271 in 2002, 31,568 in 2004, but only 17,653 in 2005 and 17,211 in 2006. Demographic studies covering 1994-2002 showed that the population decline over that period was related to a drop in annual adult survival from 85% during 1994-1998 to 56% during 1999-2001. Population models showed that if adult survival remained low, C. c. rufa would go extinct within about 10 yr. After 2002, the population held up in 2003-2004, but plunged again by nearly 50% in 2005 increasing the likelihood of extinction within the next decade. Despite intensive studies, the reasons for the population decline and reduced adult survival are imperfectly known. During northward migration, most C. c. rufa stopover in Delaware Bay where they feed mainly on the eggs of horseshoe crabs (Limulus polyphemus) and lay down fat and protein reserves both to fuel the 3,000 km flight to the arctic breeding grounds and ensure their survival after they arrive at a time when food availability is often low. The crucial importance of Delaware Bay is demonstrated by studies that show that Red Knots with lower mass in Delaware Bay have lower survival than heavier birds and that from 1998-2002 the proportion of birds there at the end of May weighing more than the estimated departure mass of 180 g declined by >60%. This might be the result of the progressive failure of the food supply in Delaware Bay and/or a trend for birds to arrive there later and/or in poorer condition. In years when Red Knots experience reduced food availability and arrive late, the result may be an exacerbation of the effects of each of these deleterious factors. The main identified threat to the C. c. rufa population is the reduced availability of horseshoe crabs eggs in Delaware Bay arising from elevated harvest of adult crabs for bait in the conch and eel fishing industries. Since 1990 the crab population has declined substantially. Although significant uncertainty regarding the extent of the decline of the horseshoe crab population remains, there is general agreement that horseshoe crab stocks have declined to a level where increased management of the fishery is necessary and appropriate. The decline in crabs has led to a decrease in the density of eggs available to shorebirds. Because of the crab's delayed maturity, demographic models indicate that even if further exploitation of crabs ceases immediately, it will be some years before the horseshoe crab population recovers to its former level. Although clear evidence, as in 2003 and 2005, shows that the reduced availability of eggs is already having an impact in some years on the Red Knots ability to gain mass in Delaware Bay, it is likely that other threats to C. c. rufa exist and that these are the cause of some birds arriving in the bay late and/or in poor condition. It is not known what these are, but they could be related to Bahia Lomas, the main wintering site in Tierra del Fuego (because the largest reduction in recent years has occurred there and because northward migration from Bahia Lomas along the Atlantic coast of Argentina has taken place 1-2 wk later since year 2000). If it is proved that something leads Red Knots to arrive late in Delaware Bay and/or in poor condition, this does not diminish the importance of the Delaware Bay food resource.… [ABSTRACT FROM AUTHOR]

Published
2008

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