Gas exchange characteristics of<Emphasis Type="Italic"> Pinus canariensis</Emphasis> needles in a forest stand on Tenerife,Canary Islands

Gas exchange characteristics and chlorophyll fluorescence of the Canarian endemic pine ( Pinus canariensis) were measured during the day for a year in a field stand on Tenerife, Canary Islands, Spain. Diurnal tendencies of gas exchange were variable depending on ambient conditions. In general they paralleled photosynthetic photon flux density with only one peak at midday, except on summer days with high air vapour pressure deficit (VPD), when needles exhibited a severe midday depression of CO ₂ assimilation rate ( A), in parallel with a reduction of stomatal conductance ( g _s). The internal CO ₂ concentration tendencies during the day suggest that stomatal closure was the main cause of the midday depression of photosynthesis. Chlorophyll fluorescence data corroborate this assertion, with the parameter F _v/ F _m reaching high values throughout day and year. P. canariensis living in the sub-tropic exhibited high values of A (maximal A value of 17 µmol m ^-2 s ^-1) and high optimal needle temperature for photosynthesis (25°C) which were at the upper limit of the values given for conifers and similar only to data obtained for some pine species adapted to habitats at similar latitudes. g _s was reduced to half when VPD attained 40 mbar, allowing this pine to have high A/ g _s values during high evaporative demand conditions.     

Habitat associations,reproduction and diet of the Guinean tilapia Tilapia guineensis of the Gambia River floodplains

The ecology of the Guinean tilapia Tilapia guineensis a dominant species of the lower Gambia River floodplains and an important food source in parts of West Africa was studied to better understand the threat posed from construction of a barrage across the river. The catch per unit effort (CPUE) of T. guineensis was positively associated with conductivity and dissolved oxygen and negatively associated with water depth and the % vegetation cover. Diet studies indicated that the T. guineensis is primarily an iliophage. The peak of reproduction was at the beginning of the rainy season. CPUE peaked in May, just before the first rains, and subsequently declined, probably reflecting movement into newly flooded habitat. Median size at maturity was 11·6 cm total length, L_T, for females and 12·5 cm L_T for males. L_T‐frequency analysis indicated several juvenile cohorts as well as very young fish on the floodplains each month, suggesting continuation of reproduction throughout the rainy season. The impending construction of a hydroelectric dam on the Gambia River is likely to affect T. guineensis negatively through anticipated changes in the hydrology of the river.     

Sex,reproductive cycle and variations in the fecundity of the family schilbeidae (Osteichthyes : Siluriformes) in Lake Kainji,Nigeria.

The sex, reproductive cycle and variations in the fecundity of the family Schilbeidae (Osteichthyes : Siluriformes) in Lake Kainji, were investigated. Sexual differences in size and morphology were found to exist in all species. Sex ratio varied with species and season. There were more females than males in the population. Size at maturity varied from species to species with the males attaining maturity at a slightly lower length than the females. Breeding condition was attained mainly during the rains in Eutropius niloticus, Schilbe mystus and Siluranodon auritus and in the dry and rainy seasons in Physailia pellucida. Spawning occurred once during the breeding season in E. niloticus and S. mystus; and more than once during the prolonged breeding season in P. pellucida. Condition factors did not show any correlation with maturation of gonads. Fecundity was found to vary from species to species.     

亚热带常绿阔叶林6个常见树种凋落叶在不同降雨期的分解特征

地处长江上游的四川盆地亚热带常绿阔叶林具有典型雨热同季的气候特点,季节性干湿交替可能显著影响凋落物分解,但迄今缺乏相应的报道。因此,采用凋落物分解袋法,研究了常绿阔叶林区最具代表性的马尾松(Pinus massoniana)、柳杉(Cryptomeria fortunei)、杉木(Cunninghamia lanceolata)、香樟(Cinnamomum camphora)、红椿(Toona ciliata)、麻栎(Quercus acutissima)等6种凋落叶在第1年不同雨热季节的分解特征。结果表明,经历1a的分解,6种凋落叶质量残留率大小顺序依次为:红椿(27.90%)柳杉(41.39%)杉木(48.93%)麻栎(49.62%)马尾松(68.82%)香樟(72.23%),6种凋落叶在不同干湿季节质量损失差异显著(P0.05)。阔叶树种在旱季(MRS、SRS和WRS)的质量损失显著高于针叶树种。雨季(ERS和LRS)对6种凋落叶质量损失的贡献率(69.73%—89.68%)均明显大于旱季(10.32%—30.27%)。6种凋落叶在不同时期中质量损失速率差异显著(P0.05),且6种凋落叶在雨季的质量损失速率明显高于旱季。相关分析结果表明,凋落叶质量损失及其速率均与降雨量和温度呈极显著(P0.01)正相关关系。凋落叶质量损失与初始C、木质素含量及C/N、木质素/N极显著(P0.01)负相关,与N含量极显著(P0.01)正相关。这些结果表明亚热带地区森林凋落物分解的质量损失主要发生在雨季,雨季温湿度的改变可显著影响凋落物分解过程。     

Seasonal trends in intestinal nematode infection and medicinal plant use among chimpanzees in the Mahale Mountains, Tanzania

A longitudinal study of nematode infection in chimpanzees was conducted between 1989 and 1994 on the M group chimpanzees of the Mahale Mountains National Park, Tanzania during two annual dry and rainy season periods and a third rainy season. Chemical and physical antiparasite properties of medicinal plant use against the strongyle nematodeOesophagostomum stephanostomum have recently been reported at Mahale. Here, the incidence of nematode infections were analyzed for seasonal trends to elucidate the possible influence of parasite infection on previously reported seasonality of medicinal plant use and to test the hypothesis that the use of these plants is stimulated byO. stephanostomum. The number of chimpanzees infected byO. stephanostomum was significantly higher in the rainy season than in the dry season of both 1989–1990 and 1991–1992. However, the incidence ofTrichuris trichura andStrongyloides fuelleborni showed no seasonality. Reinfection of individuals byO. stephanostomum occurred in synchrony with annual variation in rainfall: there was a sharp rise in the occurrence of new infections per individual within one to two months after the beginning of the first heavy rains of the season. This pattern coincides with the reproductive cycle of this nematode species.O. stephanostomum (95%) infections were associated significantly more frequently with medicinal plant use than eitherT. trichiura (50%) orS. fuelleborni (40%) infections. These observations are consistent with previous reports for the increased use of these plants during the rainy season and are consistent the hypothesis that medicinal plant use is stimulated byO. stephanostomum infection.     

Annuals with transient seed banks: the population biology of indigenous Sorghum species of tropical north-west Australia

Indigenous Sorghum species are a prominent feature of the seasonally-dry tropics of north-west Australia. Studies of the dormancy characteristics of these species were undertaken, and measurements of seedling emergence, of plant survival, growth and reproductive success, and of seed bank changes were made for one Sorghum intrans population and for three S. stipoideum populations over two growing seasons. On wetting, 90% of the non-dormant, viable seeds of nil species germinated within five days. The temperature range for optimal germination was 25 - 35°C, and germination declined with decreasing water potential. The seeds of all species had high innate dormancy at seedfall, and this was broken down over the ensuing dry season. For S. intrans and S. stipoideum height and tiller number increased steadily after emergence up to the time of floral initiation, which occurred simultaneously for primary tillers within each population. Most vegetative tillers died after this leaving a single reproductive culm which rapidly elongated to reach 1 – 4 mat maturity, depending on site and season. Seedfall occurred over a short, c. two-week period before the rainy season had finished. Seeds were dispersed within 2 m of the parent plant. Seeds were buried to less than 2 cm by the screwing action of their hygroscopically-active awns. All these annual Sorghum species appear to have transient seedbanks, formed at seedfall near the end of one rainy season and exhausted by germination following the first rains of the next annual rainy season. We suggest that S. intrans and S. stipoideum persist despite this feature because they mature at the earliest time that the rainy season has been known to end in their respective localities. Persistence is further aided by adaptations which enable individuals to survive the unpredictable short droughts which occur while they are emerging and growing. S. intrans and S. stipoideum have low fecundity (mean ? 8 viable seeds per individual) and high survivorship. They fit Watkinson's (1981) schema relating fecundity to survival for annuals with transient seed banks.     

Plant-water relationships in a mixed grassland

Summary Seasonal and diurnal patterns of osmotic and leaf water potential of several mixed grassland species were studied. The osmotic potential (OP) of Agropyron dasystachyum ranged from about-15 bars early in the growing season to about-30 bars during late summer droughts. Seasonal trends in A. smithii and Koeleria cristata were similar. Minimum osmotic potentials of Eurotia lanata and Artemisia frigida were-42 and-35 bars, respectively. The mesophytes Geum triflorum and Lomatium foeniculaceum did not exhibit OP below-20 bars. Soil water, particularly in the 0–15 cm layer, strongly influenced OP and leaf water potential (WP). Seasonal trends in WP were similar to OP. Under low stress, WP was about 10 bars greater than OP; under high stress WP was equal or even lower then OP (negative turgor). Diurnal fluctuations in WP were greater than those of OP when low stress conditions existed. Diurnal changes in potential were related to global radiation which was an index of atmospheric evaporative demand. Ecological implications of water status are discussed.     

THE ROLE OF MUCILAGE IN THE GERMINATION OF CUIPO,CAVANILLESIA PLATANIFOLIA (H. & B.) H. B. K. (BOMBACACEAE), A TROPICAL TREE

The mucilage in the fruits of cuipo, Cavanillesia platanifolia, is an adaptation to the unpredictable rainfall at the beginning of the rainy season in the tropical moist forests of central Panama. It allows cuipo to germinate rapidly following rains in the early rainy season, before other potential competitors. Mucilage comprises ~27% of the mass of the large (~3.5 g) wind-dispersed fruits of cuipo. Water uptake capacity of cuipo fruits (7 g water/g fruit in 10 min) was greater than that of the diaspores of five wind-dispersed species sympatric with cuipo. Diaspores of these five species lost all their absorbed water within 2 days but cuipo retained it for 2 wk. Experiments using two mucilage treatments (seeds within fruit and seeds alone) and three watering treatments (daily, weekly, and biweekly) indicated that 1) neither mucilage nor watering treatments altered percent germination; 2) the presence of mucilage-rich fruits lessened the effects of drought on seedling development and decreased the degree of wilting; and 3) both treatments interacted in their effects on percent and cause of mortality.     

Ecology of a typical West African Sudanian savannah rodent community

The small‐mammal community of a typical Sudanian savannah area of south‐eastern Senegal was studied by way of intensive sampling at the beginning (July) and at the end (November) of the rainy season. A total of 5931 trapnights and 200 pitfallnights yielded 767 small mammals, including 757 rodents of 12 species, as well as a few shrews and hedgehogs. Accumulation curve indicated that the rodent community was well sampled. Murine rodents were far more numerous than gerbilline rodents, and among them, Mastomys erythroleucus was the dominant species, being caught in high numbers in all habitats. Arvicanthis niloticus and Praomys daltoni were also abundant, followed by Mastomys natalensis and Gerbilliscus guineae. Abundances were high at the beginning of the rainy season when reproductive activity was low in all species. At the end of the rainy season, murine rodents were actively involved in reproduction, while gerbilline rodents were at their lowest density. Significant changes in relative abundance among habitats (including human dwellings) were observed between periods in some species, suggesting seasonal trends in habitat preferences. This may help species coexistence in this species‐rich rodent community, in an area likely to be submitted to significant habitat alterations in the years to come.     

Diurnal and Seasonal Changes in Photosynthesis and Photosystem 2 Photochemical Efficiency in Prosopis juliflora Leaves Subjected to Natural Environmental Stress

The plants of Prosopis juliflora growing in northern India are exposed to large variations of temperature, vapour pressure deficits (VPD), and photosynthetic photon flux density (PPFD) throughout the year. Under these conditions P. juliflora had two short periods of leaf production, one after the winter season and second after summer, which resulted in two distinct even aged cohorts of leaves. In winter with cold nights (2–8 °C) and moderate temperatures during the day, the plants showed high rates of photosynthesis. In summer the midday temperatures often reached <45 °C and plants showed severe inhibition of photosynthesis. The leaves of second cohort appeared in July and showed typical midday depression of photosynthesis. An analysis of diurnal partitioning of the absorbed excitation energy into photochemistry showed that a smaller fraction of the energy was utilised for photochemistry and a greater fraction was dissipated thermally, further the photon utilisation for photochemistry and thermal dissipation is largely affected by the interaction of irradiance and temperature. The plants showed high photochemical efficiency of photosystem 2 (PS2) at predawn and very little photoinhibition in all seasons except in summer. The photoinhibition in summer was pronounced with very poor recovery during night. Since P. juliflora exhibited distinct pattern of senescence and production of new leaves after winter and summer stress period, it appeared that the ontogenic characteristic together with its ability for safe dissipation of excess radiant energy in P. juliflora contributes to its growth and survival.     

Indications of Hydraulic Lift by Pinus halepensis and Its Effects on the Water Relations of Neighbour Shrubs

We measured the stable deuterium isotopic composition of xylem sap, the shoot predawn and midday water potentials, and the leaf δ¹³C of Mediterranean shrubs Pistacia lentiscus, Globularia alypum and Rosmarinus officinalis in a south-oriented transect from a large (12 m tall) Aleppo pine tree, Pinus halepensis. We aimed to study the possibility of hydraulic lift from the deep roots of this pine tree to the shallow soil layers and its influence on these neighbour shrubs. These same traits were also studied in several individuals of the shrub Pistacia lentiscus growing with different types of neighbours: just shrubs, a small (3 – 4 m) pine tree, and the above mentioned large pine tree. The greater the distance from P. halepensis the plants grew, the higher xylem water δD, the lower the soil water content, and, the lower the predawn and midday water potentials were found. These results suggest the existence of an hydraulic lift from deep roots to shallow soil in this big tree. Further indication of this existence is provided by the improved water status of P. lentiscus (higher water potentials and δD, and lower δ¹³C and, therefore, lower water use efficiencies) when growing close to the big pine in comparison with the same shrub species growing close to small pines or just surrounded by other shrubs. Moreover, all these trends occurred in the dry summer season, but disappeared in the wet spring season. This revised version was published online in July 2006 with corrections to the Cover Date.     

Water relations of epiphytic and terrestrially-rooted strangler figs in a Venezuelan palm savanna

Water use patterns of two species of strangler fig, Ficus pertusa and F. trigonata, growing in a Venezuelan palm savanna were contrasted in terms of growth phase (epiphyte and tree) and season (dry and wet). The study was motivated by the question of how C3 hemiepiphytes accommodate the marked change in rooting environment associated with a life history of epiphytic establishment followed by substantial root development in the soil. During the dry season, stomatal opening in epiphytic plants occurred only during the early morning, maximum stomatal conductances were 5 to 10-fold lower, and midday leaf water potentials were 0.5–0.8 MPa higher (less negative) than in conspecific trees. Watering epiphytes of F. pertusa during the dry season led to stomatal conductances comparable to those exhibited by conspecific trees, but midday leaf water potentials were unchanged. During the rainy season, epiphytes had lower stomatal conductances than conspecific trees, but leaf water potentials were similar between the two growth phases. There were no differences in ¹³C between the two growth phases for leaves produced in either season. Substrate water availability differed between growth phases; tree roots extended down to the permanent water table, while roots of epiphytic plants were restricted to material accumulated behind the persistent leaf bases of their host palm tree, Copernicia tectorum. Epiphytic substrate moisture contents were variable during both seasons, indicating both the availability of some moisture during the dry season and the possibility of intermittent depletion during the rainy season. Epiphytic strangler figs appear to rely on a combination of strong stomatal control, maintenance of high leaf water potentials, and perhaps some degree of stem water storage to cope with the fluctuating water regime of the epiphytic environment.     

黄土丘陵区人工林刺槐和油松凋落叶在不同降雨时期的分解特征

凋落物分解是维持生态系统养分循环和能量流动的关键过程,但在雨热同期的黄土丘陵区,不同降雨时期凋落物基质质量动态对该区不同树种凋落物分解速率的影响还不清楚。采用凋落物分解袋法,基于野外原位分解实验分析黄土丘陵区主要人工林刺槐（Robinia pseudoacacia Linn.）和油松（Pinus tabulaeformis Carr.）凋落叶在不同降雨时期的分解特征和分解过程中凋落叶基质质量的变化与分解速率之间的关系。研究结果发现：（1）经过391 d的分解,刺槐凋落叶的平均质量损失速率为（51.0±8.44）mg/d,显著地高于油松凋落叶（36.7±4.83）mg/d;雨季期间两树种凋落叶的质量损失速率均显著地高于旱季,其中夏季多雨期间凋落叶的质量损失速率最高,冬季微量降雨期间质量损失速率最低。（2）在整个分解过程中两树种凋落叶C和N含量都表现为净释放且主要发生在雨季,P含量表现为释放与富集交替进行;刺槐凋落叶C/N比、C/P比和N/P比呈波动的趋势,油松凋落叶C/N比则显著地增加且在夏季多雨期出现峰值,C/P比呈波动的状态,N/P比变化较小。（3）不同降雨时期刺槐凋落叶的质量损失速率与凋落叶P含量动态显著正相关,与C含量、C/P比和N/P比动态显著负相关。油松凋落叶质量损失速率与C/N比动态显著正相关,与C、N含量动态显著负相关,与N/P比动态呈负二次函数的关系。这些结果说明黄土丘陵区刺槐和油松凋落叶在不同降雨时期分解速率之间的差异显著且两树种凋落叶的分解都集中在雨季期间;此外凋落叶分解主要受到凋落叶N含量和N/P比动态变化的制约,与刺槐凋落叶相比,N含量与N/P比对油松凋落叶的限制作用更强。     

柳杉种植对黔西南喀斯特山区金发藓沼泽植物群落和储水功能的影响

藓类沼泽对喀斯特山区生物多样性维持和水源涵养有重要作用,需加强人工林种植对喀斯特山区藓类沼泽生态功能影响的研究。以黔西南典型金发藓沼泽为研究对象,分析了人工柳杉林对林下金发藓植物群落和金发藓沼泽储水功能的影响。主要研究结果为：1）柳杉种植对金发藓植物群落有负面影响。随柳杉密度增加,林下金发藓植物群落的盖度、平均高度和物种多样性显著下降;2）表层土壤含水量是金发藓沼泽储水量的主要贡献者。柳杉种植显著提高了干季表层土壤的含水量,但高密度柳杉林显著降低了雨季表层土壤的含水量;柳杉种植未对干季金发藓含水量造成影响,低密度柳杉林显著提高了雨季金发藓植物的含水量;3）柳杉密度对金发藓沼泽生态系统储水量的影响存在明显季节差异：在雨季呈负影响,在干季呈正影响;4）柳杉种植有利于维持金发藓沼泽储水能力的稳定性,尤其是当柳杉密度较低时这种效果更明显。表明人工柳杉林对金发藓沼泽的影响是非线性的,合适密度的柳杉种植可提升金发藓沼泽的储水能力。     

Reproduction in the agile wallaby Macropus agilis (Gould) in the tropical lowlands of the Northern Territory: opportunism in a seasonal environment

The agile wallaby, Macropus agilis, abounds on the tropical lowlands of the Northern Territory (12° 30′-13°S). The climate is markedly monsoonal and has an annual mean rainfall of 135 cm. During the rainy season, much of the wallaby's major habitat, the extensive coastal plains adjacent to the rivers, becomes flooded. The agile wallaby breeds continuously in captivity but not necessarily so in the wild, although fecundity was very high indeed. Reproduction was more successful on fertilized, nitrogenous pastures of farmland than on grasses of lower nutritive value. Breeding declined least (5%) in the dry season droughts as pastures dwindled and dried out, and most (> 45% in one year) during the rainy season in bushland where the dry season feeding grounds were inundated. The more quickly that the open riverine plains were flooded after the rains began, the higher the loss of breeding and the mortality of pouch-young. The mortality rates of young were similar on both improved and native pastures, however, with only about 35% of new-born surviving to 7 months in the pouch. Wallabies on the improved pastures were at higher densities than on the native pastures which may have influenced that mortality. That females became anoestrous during pregnancy, subsequently gave birth but did not have the usual post-partum oestrus makes the agile wallaby similar to the desert red kangaroo, M. rufus, in its method of entering anoestrus. Also as in that species, anoestrous lactating females can return to oestrus later. The agile wallaby is only the second macropodid marsupial for which these adaptations have been described. Such an adaptation in a desert species has a clear reproductive advantage which is not obvious in this tropical macropodid. Unlike the agile wallaby, the Asiatic waterbuffalo, (Babulis babulus) and domestic cattle, (Bostaurus and B. indicus) which have been introduced to its range breed and give birth on the rains. Such is the reproductive pattern in the tropical ruminants of East Africa also. Seasonal breeding is phylogenetically possible in macropodid marsupials because southern species. M fuliginosus, M. Eugenii, M. r. rufogriseus and Setonix brachyunis, do so in the mediterranean environment there. They time their breeding so that young leave the pouch when pastures are flush after the winter rains. The suggested reason for these differences in breeding of macropodids is seasonal unpredictability. Despite the enormous difference in rainfalls, weekly variability in pasture growth throughout the year is actually the same in monsoonal northern Australia as in the desert, and greater than in southern Australia. Environmental unpredictability may therefore be as important as the overall level of pasture growth in determining reproductive strategies of macropodid marsupials. For the tropical agile wallaby, the unpredictability can cause an absolute shortage or absolute abundance of food in the usual dry season depending on the length of the rainy season and on unseasonal cyclonic weather. It can also cause a relative shortage of food in the rainy season due to flooding of the best feeding grounds. It is concluded that reproduction in the wild mainly depends on the quantity and quality of the food supply.     

雷州半岛尾叶桉和湿加松人工林的蒸腾耗水规律

为正确认识大径材桉树及湿加松耗水规律,为地区人工林树种选择、栽培及抚育提供指导,应用TDP热扩散探针技术,对10年生尾叶桉和湿加松树干液流进行连续监测,并同步测定各气象因子,分析了雷州半岛地区尾叶桉和湿加松蒸腾耗水的日变化特征和季节变化规律,并与气象因子建立了相关模型。结果表明:尾叶桉和湿加松边材液流均表现出典型的昼高夜低的单峰型日变化特征,各月平均液流速率不同,且旱雨季差异显著;其中峰值尾叶桉雨季(0.127 cm/min)和旱季(0.096 cm/min)分别是湿加松雨季和旱季的1.30倍和1.57倍;日平均液流速率尾叶桉雨季(0.045 cm/min)和旱季(0.033 cm/min)分别是湿加松雨季和旱季的1.27倍和1.54倍;启动时间和迅速下降时间雨季两树种间差异不大,但旱季尾叶桉要提前湿加松约1—1.5 h启动,并晚0.5—1 h迅速下降。影响两树种边材液流速率的主要气象因子相同。尾叶桉人工林年平均单株日耗水量为12.79 L/d,是湿加松的1.33倍,林分蒸腾耗水量尾叶桉(582.16 mm)和湿加松(483.24 mm),分别占同期年降雨量的34.2%和28.4%,且两树种旱雨季蒸腾耗水量均雨季显著大于旱季。     

Leaf shedding and weather in tropical dry-seasonal forest shape the phenology of fungi – Lessons from two years of monthly surveys in southwestern Panama

In the present study, conducted in a secondary dry-seasonal forest in the pacific lowlands of southwestern Panama over 2 years, fungal diversity is linked to plant phenology, litter, and climatic data. Agaricales fungi showed maximum species richness at the beginning of rainy seasons, probably due to the important litter accumulation during the dry season and the increase in humidity favoring fungal growth. Species richness declined during the wet season possibly due to torrential rains, moulds, and decreasing availability of nutrients. Occurrence of foliar pathogenic microfungi correlated negatively with flushing of new leaves at the beginning of the rainy season. Their incidence increased during the wet season and remained high during the dry season. Synchronization of leaf shedding in most tree species significantly reduced the yearly incidence of foliar pathogenic fungi causing an annual turn-over of fungal pathogens that probably contributes to maintain a high diversity of plant pathogenic species.     

Control of shrub establishment by springtime soil water availability in an annual grassland

Summary Previous studies have shown that the shrub, Baccharis pilularis spp. consanguinea, invades annual grasslands in the San Francisco Bay region in a sporadic manner. Invasion was shown to be positively correlated with the amount of rainfall received in the spring. Here we show that, although Baccharis seeds are dispersed near the beginning of the winter rainy season, seedling root growth is extremely slow until spring. At this time, cessation of the winter rains and transpiration by the grassland annuals results in drying of the upper soil profile. We conclude that establishment of Baccharis seedlings at our study site usually fails because seedling roots cannot reach depths of permanently moist soil, below the depth of the grass roots, before this soil drought occurs. The continuation of rains into the warmer spring months provides a window of time when favorable temperatures and adequate soil moisture allow shrubs to establish.     

Water flux and canopy conductance of natural versus planted forests in Patagonia, South America

In NW Patagonia, South America, natural shrublands and mixed forests of short Nothofagus antarctica (G. Forst.) Oerst. trees are currently being replaced by plantations with Pseudotsuga menziesii (Mirb) Franco. This land use change is controversial because the region is prone to drought, and replacement of native vegetation by planted forests may increase vegetation water use. The goal of this study was to examine the physiological differences, especially the response of water flux and canopy conductance to microclimate, that lead to greater water use by exotic trees compared to native trees. Meteorological variables and sapflow density of P. menziesii and four native woody species were measured in the growing season 2005–2006. Canopy conductance (gc) was estimated for both the exotic (monoculture) and native (multi-species) systems, including the individual contributions of each species of the native forest. Sapflow density, stand-level transpiration and gc were related to leaf-to-air vapor pressure difference (VPD). All native species had different magnitudes and diurnal patterns of sapflow density compared to P. menziesii, which could be explained by the different gc responses to VPD. Stomatal sensitivity to VPD suggested that all native species have a stronger stomatal control of leaf water potential and transpiration due to hydraulic limitations compared to P. menziesii. In conclusion, differences in water use between a P. menziesii plantation and a contiguous native mixed forest of similar basal area could be explained by different gc responses to VPD between species (higher sensitivity in the native species), in addition to particular characteristics of the native forest structure.     

Caryedon serratus and its parasitoids in the Savanna around Lamto,Ivory Coast

In the savanna around Lamto,Caryedon serratus develops, in the beginning of the dry season, on maturing seeds ofPiliostigma thonningii (Caesalpinioideae). A 2^nd generation, and sometimes a 3^nd one, develops in dry seeds. There is no pupal diapause during the rainy season and adults seems to spend this period in a semi-lethargic state. The parasitoid complex ofC. serratus is a chalcid-dominated one. It includes 5 species: one oophagous (Uscana caryedoni) and 4 larvo-nymphal parasitoids. Three species are regular (Anisopteromalus caryedophagus, Bracon sp. andU. caryedoni), the others are sporadic species (Proconura serratocida, Eurytoma caryedocida). Biological data are given for each species.