Abstract
Woodpeckers can be difficult to detect, as they are often cryptic, secretive, occurring in low densities, and wary of humans. Several methods exist to detect woodpeckers (e.g., playback surveys, passive point counts), yet no research has established which technique best detects these elusive picids. Thus, we designed an experiment to determine which of three methods best results in a detection of Magellanic Woodpeckers (Campephilus magellanicus), and if weather variables influence detection probability.Mostly during austral summers 2015–2017, we (a) used a drumming device to simulate a double‐knock (i.e., territorial acoustical signal), (b) broadcasted a territorial call, and (c) passively listened (control) for Magellanic Woodpeckers. We conducted our experiment on Navarino Island, Chile, where the Magellanic Woodpecker is the sole picid.The drumming device most effectively influenced the likelihood of a woodpecker detection. The odds of a woodpecker responding to a double‐knock were 2.14 times more likely than responding to either a call or control. Moreover, the odds of a woodpecker detection decreased by 42% as wind increased by one category and decreased by 40% for every additional month (i.e., October–March), which was expected because woodpeckers become less territorial as the breeding season progresses.As Campephilus woodpeckers communicate via drums or double‐knocks, using a drumming device likely will be an effective technique to detect not only Magellanic Woodpeckers, but other woodpeckers within the Campephilus genus in Central and South America.
Highlights
Woodpeckers can be challenging to detect or locate (Kosinski & Kempa, 2007), as they are often secretive (Michalczuk & Michalczuk, 2006), quiet for long periods, overlooked among large trees that they inhabit (Allen & Kellogg, 1937), occupying wooded habitats with low visibility, cryptic (Kumar & Singh, 2010), or wary of humans (Conner, Jones, & Jones, 1994)
As Campephilus woodpeckers communicate via drums or double‐knocks, using a drumming device likely will be an effective technique to detect Magellanic Woodpeckers, but other woodpeckers within the Campephilus genus in Central and South America
Various survey techniques have been used to estimate wood‐ pecker abundances or densities. Such techniques include a vari‐ able‐belt‐width transect method, playbacks of calls and drums with territory mapping (Black Woodpecker [Dryocopus martius]; Kosinski & Kempa, 2007, Pileated Woodpecker [D. pileatus]; Renken & Wiggers, 1993), only playbacks (Pileated Woodpecker; Drever et al, 2008), and passive point counts followed by an active survey method
Summary
Woodpeckers can be challenging to detect or locate (Kosinski & Kempa, 2007), as they are often secretive (Michalczuk & Michalczuk, 2006), quiet for long periods, overlooked among large trees that they inhabit (Allen & Kellogg, 1937), occupying wooded habitats with low visibility, cryptic (Kumar & Singh, 2010), or wary of humans (Conner, Jones, & Jones, 1994). Various survey techniques have been used to estimate wood‐ pecker abundances or densities Such techniques include a vari‐ able‐belt‐width transect method (multiple species; Lammertink, 2004), playbacks of calls and drums with territory mapping (Black Woodpecker [Dryocopus martius]; Kosinski & Kempa, 2007, Pileated Woodpecker [D. pileatus]; Renken & Wiggers, 1993), only playbacks (Pileated Woodpecker; Drever et al, 2008), and passive point counts followed by an active survey method (multiple species; Kumar & Singh, 2010, Magellanic Woodpecker [Campephilus magellanicus]; Vergara et al, 2017). Personal observation), yet MAWOs generally travel with their family group (Ojeda, 2004); woodpecker families are often detected instead of indi‐ viduals This woodpecker is an important keystone spe‐ cies and of local conservation concern (Ojeda & Chazarreta, 2014), no standard technique has been established to detect and monitor populations. Navarino is 2,528 km (Lombardi, Cocozza, Lasserre, Tognetti, & Marchetti, 2010) and part
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