The Effect of Annual Rainfall on the Survival Rates Of

The Effect of Annual Rainfall on the Survival Rates Of

J. Field Ornithol., 69(2):169-179 THE EFFECT OF ANNUAL RAINFAIJ• ON THE SURVIVAL RATES OF SOME AUSTRAIJAN PASSERINES ROBIN McCI.EERY Edward Grey.'Institute Departmentof Zoolog)' South Parks Road Oxford OX1 3PS, England YORAM YoM-Tov Departmentof Zoolog)' Tel A viv University 69978 Tel Aviv, Israel DAVID PURCHASE Orchard Place Melba, ACT 2615, Australia Abstract.--The survivalrates of 18 speciesof wide-rangingAustralian passerineswere calcu- lated by using recapture data provided by the Australian Bird Banding Scheme for birds older than one year. On average,birds living in relativelylower rainfall areas (<760 mm annually)lived 15% longer than birdsliving in higher rainfall areas(>760 mm). Out of 18 speciesexamined, only three do not conform with this general trend. EL EFECTO DE EL PATRON DE LLUVIA ANUAL EN LA TASA DE SUPERVIVENCIA DE ALGUNOS PASERINOS AUSTRALIANOS Sinopsis.--La tasa de supervivencia de 18 especiesde paserinosAustralianos fue calculada utilizando datos de recaptufa provistospot la oficina de Anillaje Australianapara avesde mgsde un afio. En promedio,las aves que vivenen •ireasde menos11uvia (<760 mm anuales) vivieronun 15% mgsque las avesque vivenen greasmf•s 11uviosas (>760 mm). De las 18 especiesestudiadas, tan solo tres no cayerondentro de esta tendencia. The survival of various organisms,including birds, is related to body mass (Calder 1984, Dobson 1990), although other life history traits may have a considerable influence on survival (Stearns 199:2) Body massof individuals is positively correlated with survival when considered at an interspecific level (Calder 1984), although within speciesthe picture is less clear. Survival is also related to clutch size and total reproductive effort, both of which vary geographicallyand between habitats (e.g., Dob- son 1990). Thus, life histories (i.e., survivaland fecundity schedulesand their inter-relations)should representan adaptationto a species'strategy of life in a particular habitat or climate. However, little work has been done to compare survivalof birds in relation to climate. It is generally believed that tropical birds live longer than those of temperate regions (Ricklefs1973), but there appear to be no studiesof survivalof birds in relation to rainfall. For example, no data on survivalare provided for any of the Palearcticdesert passerineswhich are dealt with in Cramp (1988). The large amount of data accumulated by bird-banding schemesin different countriesprovides a unique resourcefor monitoring the survival 169 170] R. McCleeo.,etal. j. FieldOrnithol. Spring 1998 rates of a broad range of bird species,and enables a comparisonof sur- vival in different habitats (Dobson 1990). In a previous paper (Yom-Tov et al. 1992), we used the extensive data stored at the Australian Bird Banding Scheme (ABBBS) to compare the survivalrate of some Austra- lian passerinesto those of British passerines,and the survivalrates of the "old endemics" among the Australian birds to the "new invaders".We found that Australian passerinestend to live longer than British ones, with no difference between "old endemics" and "new invaders." Many of these bird speciesinhabit large areas in Australia where climate, par- ticularlyrainfall, variesgreatly. In this paper we used the samesource of data to compare the survivalrates of birds of the samespecies which live in high and low rainfall regimes. METHODS The data in this analysiswere providedby the AustralianBird Banding Scheme, Australian Nature ConservationAgency, Canberra. They origi- nated from intensivebanding studies,which produced large numbers of subsequentrecaptures, and from opportunisticbanding, which produced fewer recaptures,between 1962-1990. We used only recaptures (not re- coveriesof birds found dead), as more of these data were available.Eight- een speciesfor which a large number of recapture data were readily avail- able were selectedfor analysis(Table 1). Only birds older than 1 yr at banding were used in the analysis,but recapturesthat occurred lessthan 5 mo after banding were not included, as they might have biased the estimatesof survival.Body massof all specieswas lessthan 325 g, with 14 weighing6-25 g, and four weighing60, 90, 275 and 323 g, respectively. They include 16 old endemics, one new invader (Red-browedFiretail, Emblematemporalis) and a European introduction (Blackbird, Turdusmer- ula) . The majority of the data came from four regions in Australia: (1) the southwestern corner of Western Australia (WA); (2) southern South Aus- tralia; (3) the temperate areas of Victoria, Tasmania, and New South Wales (NSW); and (4) eastern Queensland (Fig. 1). Most specimensfrom WA came from localities less than 100 km from the coast of the Indian Ocean, but there were about 63 from isolated localities further inland. All specimensfrom South Australia came from localitiesless than 120 km from the coast and those from NSW, Victoria, and southern Queensland came from localities less than 300 km from the coast. Hence, most of our data came from the Bassianregion. For each locality we assignedmean annual rainfall measured at the closestmeteorological station as given in Wernstedt(1972). This sourceprovides long-term averages of monthly and annual precipitation for more than 300 weather stationsthroughout Australia. A comparison of specieswithin the Australian data set required an index of longevityderived from the ringing data with a minimum of as- sumptions.We started, therefore, by determining the time elapsed be- tween the date of banding and date of the last recaptureof each individ- Vol.69, No. '2 Rainfalland Passefine Su,vival [171 TABLE1. The total number of yearsof bandingand recaptureof a speciesand the number of sitesin each rainfall regime. Semi-arid areas Mesic areas Band- Recap- Band- Recap- ing, ture, No. ing, ture, No. Species years years sites years years sites Blackbird, Turdus merula 10 9 27 6 6 6 Eastern Yellow Robin, Eopsaltriaaustralis 7 6 20 5 5 28 Golden Whistler, Pachycephalapectoralis 7 8 18 5 5 21 Grey Shrike-thrush, Colluricincla harmonica 8 9 15 6 5 13 Grey Fantail, Rhipidurafuliginosa 7 7 19 7 7 26 Superb Fairy-Wren, Malurus cyaneus 12 12 45 3 4 21 White-browed Scrubwren, Sericornisfrontalis 9 8 33 5 8 34 Striated Thornbill, Acanthiza lineata 11 10 27 3 3 10 Brown Thornbill, Acanthizapusilla 7 6 28 6 5 26 Yellow-facedHoneyeater, Lichenostomuschrysops 7 6 16 5 5 12 White-naped Honeyeater, Melithreptuslunatus 8 7 12 5 5 5 Brown Honeyeater, Lichmera indistincta 4 4 10 6 5 14 New Holland Honeyeater, Phylidonyrisnovaehollandiae 10 11 41 7 6 23 Eastern Spinebill, Acanthorhynchustenuirostris 10 9 24 6 7 26 Silvereye, Zosteropslateralis 11 10 40 9 7 41 Red-browed Firetail, Emblematemporalis 11 11 18 5 5 22 AustralianMagpie, Gymnorhynatibicen 11 8 29 8 7 21 Pied Currawong, Streperagraculina 6 5 6 5 3 6 ual (DLR). When the distribution of the banding dateqastrecapture in- terval is plotted for each speciesit gives,not surprisingly,a right-skewed histogram. Average longevity alone would give undue weight to a few long-livedindividuals. In theory one might expect that DLR should have an exponential distribution with variance proportional to mean squared. The usual transformationwould be logarithmic, but we found that this left us with rather stronglyskewed residuals. We suspectthat this is be- cause although the mean-variancerelationship is consistentwith expo- 172] R. McCleeO' et al. J. Field Ornithol. Spring 1998 FIGURE1. Localitiesof the birds in this study,organized by one degree squareblocks. The nmnber of retraps in each localityis indicated by dots of different size (see key). nential distribution there may be a distortion at low DLR values.In any casewe followed the suggestionof Armitage and Berry (1987:363) for these kinds of data and used a reciprocal transformation. For all species in our sample this transformationof the individual band longevitygives a reasonablynormal distribution, whosemean is referred to as the specific death rate (SDR) in Table 2. The reciprocal of the SDR is the harmonic mean of the survivaltimes for each species(in years). After carrying out statisticalanalysis using the GLM procedure of Min- itab, we checked the distribution of the residuals, and plotted them againstthe fitted valuesto check for heterogeneityof variance.Although a slight right skewremains in the residualseven after reciprocal transfor- mation, it is unlikely to have affected the resultssignificantly. In no case did we find any heterogeneityin the variance of SDR. Although we used only specieswith relativelylarge numbers of recap- tures, the data were unevenly distributed between years and localities. Typicallythere were extensiverecaptures for a number of years,followed by long periods with litde additional data, with a possibleone or more additional periods of many recaptures.This pattern reflects the passing interest or temporary residencyof an individual or group of banders in a particular species.Hence, our study is sensitiveto which studies are included in it. However, the criterion we used for selectinga speciesto participate in this studywas that there were a relativelylarge number of Vol.69, No. ') Rainfalland Passefine Survival [ 173 retrapsof this species,and no specieswas excluded for any other reason. Another source of bias in our data is that some of them come from birds that were banded as part of a study of colored-bandedbirds which are primarily re-encounteredby sightings,and are not recapturedat random. Such resightingsare rarely reported to the ABBBS (Ian Rowley,pers. comm.) and might

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