Open Woodland (open + woodland)

Distribution by Scientific Domains


Selected Abstracts


Mistletoe (Tapinanthus bangwensis Reichenbach) infestation of indigenous and non-indigenous trees at Amani Nature Reserve, Tanzania

AFRICAN JOURNAL OF ECOLOGY, Issue 1 2001
L. M. Lekunze
Abstract A survey of Tapinanthus bangwensis was carried out in a plantation in the botanic garden at Amani Nature Reserve, which forms part of the East Usambara Mountain, located in the north-east of Tanzania. A total of 169 trees were examined on four transects of 100 × 50 m (5000 m2) each, located about 700 m apart. Three treatment transects were established in open woodland with a control transect in the closed canopy. Out of 101 trees (81 non-indigenous and 20 indigenous) examined in the open canopy, T. bangwensis was present on 24; eighteen non-indigenous and six indigenous. Of all the infested trees, a non-indigenous species, silky oak (Grevillea robusta) was the most common (37.4%), followed by an indigenous species, mzindanguruwe (Blighia unijugata) with 16.6%. Chi-squared tests showed that there was no significant difference in frequency of infestation between non-indigenous and indigenous species (,2 = 0.715, P = 0.5826). t -Testing showed that T. bangwensis preferred taller and larger trees (t = , 3.930, P = 0.0002 and t = , 2.416, P = 0.0175, respectively). No T. bangwensis was found on the 68 trees examined in the closed canopy. Résumé On a réalisé une étude sur Tapinanthus bangwensis dans une plantation du jardin botanique de la Réserve Naturelle d'Amani qui fait partie de la East Usambara Mountain, au nord-est de la Tanzanie. On a examiné un total de 169 arbres sur quatre transects de 100 mètres sur 50 (5000 m2) chacun, situés à environ 700 mètres l'un de l'autre. On a créé trois transects de traitement dans la forêt claire et un de contrôle dans la canopée fermée. Sur les 101 arbres (81 non indigènes et 20 indigènes) examinés dans la canopée ouverte, T. bangwensisétait présent sur 24, 18 non indigènes et six indigènes. Parmi les espèces infestées, une espèce non indigène, Grevillea robusta, était la plus commune (37,4%), suivie par une espèce indigène, mzindanguruwe (Blighia unijugata) avec 16,6%. Des tests de ,2 ont montré qu'il n'y avait pas de différence significative dans les fréquences d'infestation des espèces indigènes et non indigènes (,2 = 0,715, P = 0,5826). Les tests de t ont montré que T. bangwensis préférait les arbres plus hauts et plus gros (t = - 3,930, P = 0,0002 et t = - 2,416, P = 0,0175, respectivement). On n'a pas trouvé de T. bangwensis sur les 68 arbres examinés en canopée fermée. [source]


Landscape monitoring of semi-arid rangelands in the Kenyan Rift Valley

AFRICAN JOURNAL OF ECOLOGY, Issue 4 2000
A. D. Q. Agnew
A sampling system was devised and used from 1992 to 1996 in annual grassland and open woodland of the south-west Kenyan Rift Valley. The monitoring was designed to detect vegetation changes consequent on the attempted removal of the tsetse vectors of trypanosomiasis in cattle during a simultaneous trapping programme. The sampled sites covered most vegetation-landscape types, and have led to a better understanding of processes within some. Although fluctuations in pastoralist use and occupancy have been observed, no change in vegetation can be attributed to increased grazing or browsing. Although there is high climatic variability some vegetation types seemed stable over the period studied, and some trends appear to be predictable. Resume On a conçu un système d'échantillonnage qui fut utilisé de 1992 à 1996 dans les prairies annuelles et dans les forêts ouvertes du sud-ouest de la Rift Valley, au Kenya. La surveillance était conçue de façon à détecter les changements de végétation qui résultaient des tentatives d'éradication des mouches tsé-tsé, vecteurs de la trypanosomiase chez le bétail, au cours d'un programme de piégeage. Les sites d'échantillonnages couvraient des paysages correspondant à la plupart des types de végétation et ont conduit à une meilleure compréhension du processus dans certains d'entre eux. Bien qu'on ait observé des fluctuations dans l'occupation et l'utilisation pastorales, on ne peut attribuer aucun changement de végétation à une augmentation du pâturage. Bien que le climat soit très variable, certains types de végétations semblent être restés stables pendant la durée de l'étude et l'on semble pouvoir prédire certaines tendances. [source]


Sensitivity of tropical forests to climate change in the humid tropics of north Queensland

AUSTRAL ECOLOGY, Issue 6 2001
David W. Hilbert
Abstract An analysis using an artificial neural network model suggests that the tropical forests of north Queensland are highly sensitive to climate change within the range that is likely to occur in the next 50,100 years. The distribution and extent of environments suitable for 15 structural forest types were estimated, using the model, in 10 climate scenarios that include warming up to 1°C and altered precipitation from ,10% to +20%. Large changes in the distribution of forest environments are predicted with even minor climate change. Increased precipitation favours some rainforest types, whereas decreased rainfall increases the area suitable for forests dominated by sclerophyllous genera such as Eucalyptus and Allocasuarina. Rainforest environments respond differentially to increased temperature. The area of lowland mesophyll vine forest environments increases with warming, whereas upland complex notophyll vine forest environments respond either positively or negatively to temperature, depending on precipitation. Highland rainforest environments (simple notophyll and simple microphyll vine fern forests and thickets), the habitat for many of the region's endemic vertebrates, decrease by 50% with only a 1°C warming. Estimates of the stress to present forests resulting from spatial shifts of forest environments (assuming no change in the present forest distributions) indicate that several forest types would be highly stressed by a 1°C warming and most are sensitive to any change in rainfall. Most forests will experience climates in the near future that are more appropriate to some other structural forest type. Thus, the propensity for ecological change in the region is high and, in the long term, significant shifts in the extent and spatial distribution of forests are likely. A detailed spatial analysis of the sensitivity to climate change indicates that the strongest effects of climate change will be experienced at boundaries between forest classes and in ecotonal communities between rainforest and open woodland. [source]


Development of a stable isotope index to assess decadal-scale vegetation change and application to woodlands of the Burdekin catchment, Australia

GLOBAL CHANGE BIOLOGY, Issue 7 2007
EVELYN KRULL
Abstract Forty-four study sites were established in remnant woodland in the Burdekin River catchment in tropical north-east Queensland, Australia, to assess recent (decadal) vegetation change. The aim of this study was further to evaluate whether wide-scale vegetation ,thickening' (proliferation of woody plants in formerly more open woodlands) had occurred during the last century, coinciding with significant changes in land management. Soil samples from several depth intervals were size separated into different soil organic carbon (SOC) fractions, which differed from one another by chemical composition and turnover times. Tropical (C4) grasses dominate in the Burdekin catchment, and thus ,13C analyses of SOC fractions with different turnover times can be used to assess whether the relative proportion of trees (C3) and grasses (C4) had changed over time. However, a method was required to permit standardized assessment of the ,13C data for the individual sites within the 13 Mha catchment, which varied in soil and vegetation characteristics. Thus, an index was developed using data from three detailed study sites and global literature to standardize individual isotopic data from different soil depths and SOC fractions to reflect only the changed proportion of trees (C3) to grasses (C4) over decadal timescales. When applied to the 44 individual sites distributed throughout the Burdekin catchment, 64% of the sites were shown to have experienced decadal vegetation thickening, while 29% had remained stable and the remaining 7% had thinned. Thus, the development of this index enabled regional scale assessment and comparison of decadal vegetation patterns without having to rely on prior knowledge of vegetation changes or aerial photography. [source]


Wildfires and the expansion of threatened farmland birds: the ortolan bunting Emberiza hortulana in Mediterranean landscapes

JOURNAL OF APPLIED ECOLOGY, Issue 4 2008
Lluís Brotons
Summary 1It has been argued that wildfires are one of the major agents involved in landscape transformation in many European regions and their impact is expected to increase in the near future. Despite the recognized impact of fire on wildlife at a local scale, we lack information on the species responses to fire at larger spatial scales. 2In this study, we used the ortolan bunting Emberiza hortulana to evaluate the potential effects of wildfires on open-habitat species distribution. In contrast to most European countries, this farmland species has experienced a consistent range expansion during the last decades in Catalonia (northeast Iberian peninsula). Distribution data of the species collected at different time periods allowed us to test the role of fires in determining range expansions at a regional scale, and to evaluate the importance of dispersal constraints on distribution changes. 3Analyses of distribution data from 1975,1983 and 1999,2002 showed a consistent expansion of the ortolan bunting in Catalonia. After correcting for differences in sampling effort, changes in distribution showed a strong spatial pattern with colonization and stability, but not local extinction, being clumped in space. Patterns of change were also strongly and significantly associated with the amount of shrubland burnt between the two time periods, since areas that experienced a larger impact of fires in terms of burnt area showed a much higher probability of maintaining species presence or of being colonized. Colonization events appeared to be more likely in areas affected by fire especially when surrounding areas had already been colonized by the species. 4Synthesis and applications. Overall, our results support the hypothesis that wildfires, especially those affecting open woodlands or shrubby areas, play a critical role in the ecology of the ortolan bunting and have contributed to the recent expansion of the species in Catalonia. Furthermore, we have shown that colonization appears to be limited, not only by the availability of new burnt habitat but also by specific dispersal constraints. We suggest that, for several European threatened species associated with open habitats, burnt areas may partially compensate for the widespread loss and deterioration of farmland habitat, opening new management opportunities for their conservation. [source]


Is there a relationship between herbaceous species richness and buffel grass (Cenchrus ciliaris)?

AUSTRAL ECOLOGY, Issue 5 2005
JANICE JACKSON
Abstract Cenchrus ciliaris L. (buffel grass) (Poaceae) is recognized as one of Australia's most serious environmental weeds. This introduced grass has been associated with loss of native species and alteration of fire regimes. However, it is also highly valued as a pasture species for arid and semiarid zones and its weed status is highly controversial. Quantitative studies are needed to determine its ecological effects. The relationship between C. ciliaris and herbaceous species richness was investigated in two studies at a range of scales up to 64 m2 in open woodlands in the Dalrymple Shire, north-eastern Queensland. In the first study, the herbaceous species composition of sites with and without C. ciliaris were compared. Cenchrus ciliaris -dominated sites had fewer herbaceous species than non- C. ciliaris sites at all scales investigated and this pattern was found for the major plant groups (perennial grasses, legumes and other forbs) present. In the second study, the relationship between varying levels of C. ciliaris biomass and species richness was investigated. The relationship between varying levels of a dominant native grass, Bothriochloa ewartiana (Domin) C.E. Hubb. (Poaceae), and species richness was also determined for comparison with the C. ciliaris biomass-richness relationship. In this study, species richness was negatively associated with increasing C. ciliaris biomass at some scales and it appeared that C. ciliaris had a greater effect on richness than B. ewartiana. The negative association between C. ciliaris and species richness is consistent with the view that invasion by C. ciliaris poses a threat to biodiversity. However, the precise cause of the relationship has yet to be determined. [source]