THE THERMAL SIGNIFICANCE OF THE NEST OF THE SOCIABLE WEAVER PHILETAIRUS SOCIUS: SUMMER OBSERVATIONS

Extending a previous study of the thermal significance of the nest of the Sociable Weaver carried out during the winter, we measured temperature and humidity in the matrix and chambers of a large nest of this species in the Kalahari Gemsbok National Park, South Africa, during the austral summer of December 1973. Air temperatures outside the nest ranged from 16 to 33.5°C but temperatures in occupied chambers varied over a range of only 7 or 8°C and remained well within the zone of thermal neutrality for a passerine bird of this size. Compared to outside air temperatures, those within the nest matrix were lower during the day and higher at night. Thus, the nest ameliorates the effects of external temperatures and allows maintenance inside the chambers of a range of temperature favourable to the birds. In winter we found up to five roosting adults per chamber, with some chambers left empty. In the same nest in summer we found no more than two adults per chamber but virtually all chambers were occupied. The principal mechanism for maintaining chambers within the zone of minimal energetic cost is changes in the number of birds in the nest chambers at night. Humidity inside the occupied and unoccupied chambers was somewhat higher in the former but always less than that of outside air in both cases. Air movement through the desiccated nest materials causes uptake by these materials of most of the water vapour introduced by the birds, and this moisture is dissipated to the outside during the day so that the nest remains dry. The highly social and colonial habits of the birds and their year-round occupancy and maintenance of the nest favour a system of opportunistic breeding that may be initiated by rainfall at any season. Larger nests provide the most favourable environment for energy conservation and successful reproduction. Even the largest nests, however, do not prevent predation during the warm season by snakes such as the Cape Cobra, which may consume all the eggs and young in all the chambers of a large nest. The effects of such heavy predation may be offset by the birds' capability for breeding during times too cold for reptile activity. It seems likely that in smaller nests such as those on telephone poles, lack of predation would favour summer breeding while thermal problems would limit breeding success in winter. In larger nests, breeding success may be lower in summer because of predation and higher in winter when reptile predation is lacking and thermal problems are minimized by the nest structure. The large nest not only makes possible the success of the Sociable Weaver in desert areas, but the nest could only exist in such areas and the species' range is thereby restricted. Higher humidity and heavier rainfall would cause fermentation within the nest mass, loss of its thermoregulatory advantages, and ultimately its decomposition and destruction. Therefore, the unique nesting system of the Sociable Weaver appears to be initially self-reinforcing and ultimately self-limiting.     

THE THERMAL SIGNIFICANCE OF THE NEST OF THE SOCIABLE WEAVER PHILETAIRUS SOCIUS: WINTER OBSERVATIONS

The Sociable Weaver of southern Africa builds the largest of all birds' nests. Individual nests contain many chambers and may be occupied by a colony of a hundred or more pairs. Most aspects of the biology of this species are linked, either directly or indirectly, to the nest and its construction. One readily demonstrable function served by this enormous nest is the amelioration of the impact of low environmental temperatures.     

THE SOCIABLE WEAVER,PART 2: NEST ARCHITECTURE AND SOCIAL ORGANIZATION

Maclean, G. L. 1973. The Sociable Weaver, Part 2: Nest architecture and social organization. Ostrich 44:191-218.

Sociable Weavers build nest masses in a number of indigenous tree species (especially on Acacia giraffae branches) and on artificial nest sites like telephone poles. They never build in exotic trees. Nest masses are built of grass straws and roofed over with a superstructure of coarser material such as thorn twigs. The grass substructure contains the nest chambers which do not interconnect. The substructure may be divisible into two or more levels, each forming a social unit comprising the birds inhabiting it.

Each social level of birds is confined to its own structural level at all times, but a bird may roost in any chamber within its own level. The superstructure is not divisible into social units and any bird may build or perch on any part of the superstructure. Movements of birds from one colony to another are rare. The colony at one nest mass leaves the nest at about sunrise in summer, a little later in winter, and flies to the feeding grounds; the birds return to the nest mass for a siesta lasting from about 10:00 hours to 14:00 hours in hot weather, less than this in cool weather. They depart again for their feeding grounds until about sunset.

The internal temperature and RH of the nest chambers were not found to be significantly different from ambient temperature and RH when ambient temperatures were > 21,7°C. At ambient temperatures < 26,7°C the RH of the nest chambers was significantly lower than ambient Rh, but temperatures were not significantly different during the day.     

THE SOCIABLE WEAVER,PART 5: FOOD,FEEDING AND GENERAL BEHAVIOUR

Maclean, G. L. 1973. The Sociable Weaver, Part 5: Food, feeding and general behaviour. Ostrich 44:254-261.

The food of the Sociable Weaver during the study period consisted of 78,9% animal material by weight; the rest was mainly seeds, mostly of green grasses. The young are fed entirely on animal food. The most important single source of animal food in the Kalahari is the harvester termite Hodotermes mossambica. Sociable Weavers are independent of drinking water under natural conditions. Members of a colony do not usually feed more than about 1,5 km from the nest mass.

Maintenance activities and other general behaviour patterns of the Sociable Weaver are described; they are typically passerine.     

NESTING OF THE VILLAGE WEAVER PLOCEUS CUCULLATUS

From August to October 1975, 31 nesting colonies of Village Weavers were identified within an area of 3000 km², south of Lake Chad in Africa. The number of nests and the productivity of each colony were estimated by means of several samplings made during the course of the nesting season. Differences between bush colonies and village colonies are not relevant. The average length of the nesting season is 70 days. In each colony the number of nests increases during the first month and then decreases. The average number of fledging attempts is four per colony, with a period of about ten days from one to another. On a regional scale, breeding periods and fledging attempts are well synchronized. Each nest carries an average of 2.4 eggs and 1.9 young, the difference occurring only at hatching. Due to regional synchronism, the period of most intensive reproductive activity, at which the number of nests reaches its maximum, can be determined.     

THE BREEDING OF HEUGLIN'S MASKED WEAVER AND ITS NESTING ASSOCIATION WITH THE RED WEAVER ANT

Grimes, L. G. 1973. The breeding of Heuglin's Masked Weaver and its nesting association with the Red Weaver Ant. Ostrich 44: 170–175.

The breeding season of Heuglin “s Masked Weaver Ploceus heuglini at Legon began in the latter half of the major dry season in January and February; continued through the main wet season and ceased in late August and for the rest of the year. The Accra colony had a similar breeding activity but in addition was active for a short period in November which had ended by mid-December. Although the majority of males formed colonies in which the number of males ranged from two to twenty, solitary breeding occurred equally frequently. Most males within the Legon colony, and possibly this is true for all colonies, were polygynous while most solitary males were monogamous. More nests were built by each male than the number of females involved in the polygyny.

A close nesting association with the Red Weaver Ant Oecophylla longinoda existed and the data suggested that the weaver sought the ant. Two cases were found of nesting association with the wasp Belanogaster grisens.     

THE SOCIABLE WEAVER,PART 3: BREEDING BIOLOGY AND MOULT

Maclean, G. L. 1973. The Sociable Weaver, Part 3: Breeding biology and moult. Ostrich 44: 219–240.

Rain or some associated phenomenon is the principal Zeitgeber releasing breeding in the Sociable Weaver. The species does not breed in the absence of rain. The same nest chambers are used for breeding as are used for roosting throughout the year. The Sociable Weaver is monogamous. The clutch size varies from two to six eggs, larger clutches being more common after good rains than in relatively poorer breeding periods. Food supply may therefore be the proximate factor regulating clutch size. Replacement clutches are not necessarily smaller than first clutches. The mean clutch size within a breeding period decreases with an apparent decrease in food supply. The parents share parental duties about equally. Up to four successive broods may be raised in a single breeding period; a breeding period may last up to nine months and may occur at any time of the year according to the somewhat erratic rainfall which averages about 226 mm per year in the study area.

First broods help their parents to feed later broods; fourth brood chicks may therefore be fed by as many as 11 birds (nine young and two parents). This has survival value especially toward the end of a breeding period when food is scarce. Of similar value is the habit of starting incubation with the first or second egg of the clutch; in a relatively poor season older chicks will survive while younger ones will starve, thereby effectively and quickly reducing brood size. Young birds moult into adult plumage at four months, but do not normally leave the home colony. The sexes are indistinguishable at all ages, but there is an approximate ratio of eight males to five females in the study area.

Wing moult is slow: each remex takes about a month for replacement. Body moult occurs within the space of a month, usually after rain while the birds are breeding. Primary remiges are moulted proximo-distally from 1 to 9; secondaries are moulted disto-proximally from 1 to 6. Body moult is antero-posterior with the dorsal surface slightly in advance of the ventral surface.     

OBSERVATIONS ON THE NESTING SITES AND NESTING BEHAVIOUR OF THE KITTLITZ'S SANDPLOVER CHARADRIUS PECUARIUS

Jackson, S. 1984. Predation by Pied Kingfishers and Whitebreasted Cormorants on fish in the Kosi estuary system. Ostrich 55:113-132.

Identification of otoliths from the regurgitated pellets of Pied Kingfishers Ceryle rudis and Whitebreasted Cormorants Phalacrocorax carbo from the Kosi estuary system provides information on the relative proportions of fish species in the diets of the birds. This information can be related to the feeding habits, distribution and abundance of their prey. It is also an indication of the feeding range of the birds. There is little overlap between both the size classes and the species of fish taken by the two predators. This is because of the difference in size and fishing techniques of C. rudis and P. carbo, and of differences in their feeding ranges. Competition for food between the two populations of birds studied is minimized by these differences.     

THE SOCIABLE WEAVER,PART 4: PREDATORS,PARASITES AND SYMBIONTS

Maclean, G. L. 1973. The Sociable Weaver, Part 4: Predators, parasites and symbionts. Ostrich 44: 241–253.

The main nest predator of the Sociable Weaver in the Kalahari sandveld is the Cape Cobra Nala nivea. This snake causes great losses of eggs and chicks; one cobra may eat the contents of an entire nest mass at one feed. Another nest predator which causes smaller losses of eggs and chicks but great destruction to the nest masses is the Honey Badger Mellivora capensis. These are the only two nest predators on the Sociable Weaver in the study area. Predators on adult Sociable Weavers include several birds of prey and some small carnivorous mammals.

Adult Sociable Weavers have few ectoparasites and hardly any Mallophaga. A common ectoparasite on the legs of chicks is a blood-sucking Dermestes larva, which appears not to be harmful. The only endoparasite found was the nematode, Diplotriaena ozouxi, which infected the abdominal air sacs of the adults.

The nest material of the Sociable Weavers' communal nest masses was inhabited by a wealth of invertebrate animals and a few harmless reptiles such as skinks and geckos.

Some of the chambers in a Sociable Weaver nest mass may be taken over by other species of birds. Most of these, such as Redheaded Finches Amadina erythrocephala, use the chambers for breeding purposes only, but the most important avian symbiont, the Pygmy Falcon Polihierax semitorquatus, is a permanent resident in the chambers. The presence of Pygmy Falcons is resented by the weavers but the falcons may help to keep snakes away from the nest mass. Adult Sociable Weavers are not normally preyed on by Pygmy Falcons, although the falcons may occasionally take young weavers in the nest chambers.

The tops of the nest masses may be used as nest sites by the Giant Eagle Owl Bubo lacteus. Barn Owls Tyto alba may use cavities in the superstructure of nest masses for roosting in. Neither of these owls appeared to prey on the weavers.     

黄鼬的产仔环境和鼬巢密度调查

长江中下游平原及华北平原是黄鼬(Mustela Sibirica)的主要产区,在黄土高原地区的数量则较为稀少。为了掌握黄鼬对繁殖环境的选择和各地资源状况,达到合理利用黄鼬资源的目的,我们选择长江流域的崇明岛,淮河流域的宿县,黄河流域的衡水县及黄土高原的太原、交城进行调查。调查期间,得到上海市畜产公司、山西省和太原市畜产公司、衡水地区畜产公司及宿县地区畜产站的热情支持。     

INTRA-SEASONAL AND INTER-SEASONAL NEST RENOVATION IN THE MASKED WEAVER,PLOCEUS VEIATUS

Howman, H.R.G., & Begg, G.W. 1995 Intra-seasonal and inter-seasonal nest renovation in the Masked Weaver, Ploceus velatus. Ostrich 66:122-128.

This paper describes a series of observations relating to the intra-seasonal and inter-seasonal renovation of nests by a single male Masked Weaver Ploceus velatus, over a period of three breeding seasons (1991 to 1993). These data shed new light on the nest building techniques and nest building behaviour of the species and demonstrate that nest building can be flexible in the same individual. It is suggested that the partial demolition of nests and the renovation of nests would be advantageous because of the energetic savings.     

鼎突多刺蚁的营巢习性

1985—1986年在浙江永康县城东南10公里的山坡上观察鼎突多刺蚁(Polyrhachis vicina Roger)的营巢习性;见到蚁巢大多分布于山脚附近、温暖而阳光充足的南坡,一般生活于地面,以刺芒野古草(Arundinella setosaTrin.)为主的禾本科草丛中.蚁巢由工蚁使幼虫吐丝把植物残体、昆虫尸体、泥沙和碎石等物缀织而成.地下部分的深度常受气温的影响:5—10月,气温较高,巢深2—4cm、11—4月,气候寒冷,深度可达10—20cm.每个蚁巢内的所有个体为一相对独立的群体,相邻蚁巢的群体间常相互联系、交换幼期个体和食物等.群体常因季节的变化而有迁移现象:秋季至春季,蚁巢大多位于阳光充足的草地上,夏天,由于气候炎热,蚁巢自草地移向遮荫度较大的树林.8—9月,部分上树筑巢.1—8月,蚁巢数不变,8月以后,蚁巢数开始增加,到10月达到最大,以后又下降,到12月降至通常水平.由此可见,9—10月,蚂蚁分巢,11—12月,部分蚁巢又合并.平均每巢工蚁数夏季最多,其次是春季和冬季,秋季由于分巢而最少.     

THE NEST OF THE KNYSNA SCRUB WARBLER (BRADYPTERUS SYLVATICUS) AND SOME NOTES ON PARENTAL BEHAVIOUR

Von Maltitz, F., Schmitt, M. B., &; Biggs, H. C. 1984. Measurements, moult and abundance of the Lizard Buzzard in the Transvaal. Ostrich 55: 177–181.

During a 12-year study 51 Lizard Buzzards Kaupifalco monogrammicus were captured in the Transvaal. South Africa. They occurred sporadically, with peaks in the years 1972, 1975, 1979 and 1983 and were significantly more common in winter. Moult was completed between January and June. Mass is given and recaptures documented.