Issues of scale and aggregation become important when large range of space and time scales is considered in landscape models.However,identifying appropriate levels of aggregation to accurately represent the processes ...Issues of scale and aggregation become important when large range of space and time scales is considered in landscape models.However,identifying appropriate levels of aggregation to accurately represent the processes and components of ecological systems is challenging.A raster-based spatially explicit forest landscape model,LANDIS,was used to study the effects of spatial aggregation on simulated spatial pattern and ecological process in Youhao Forest Bureau of the Small Khingan Mountain in Northeastern China.The model was tested over 500 simulation years with systematically increased levels of spatial aggregation.The results show that spatial aggregation significantly influences the simulation of fire disturbance,species abundance,and spatial pattern.Simulated fire regime was relatively insensitive to grain size between 30.m and 270.m in the region.Spatial aggregation from 300.m to 480.m dramatically decreased fire return interval(FRI) and increased mean fire size.Generally,species abundance and its aggregation index(AI) remained higher level over simulation years at the fine-grained level of spatial aggregation than at coarser grains.In addition,the simulated forest dynamics was more realistic at finer grains.These results suggest that appropriate levels of spatial aggregation for the model should not be larger than 270m.展开更多
Studies were carried out to determine species richness and abundance of rock-dwelling cichlids, Mbuna, in Lake Malawi. A total of 40 heterogeneous sites which yielded 10 genera, 136 species and a species-genus ratio o...Studies were carried out to determine species richness and abundance of rock-dwelling cichlids, Mbuna, in Lake Malawi. A total of 40 heterogeneous sites which yielded 10 genera, 136 species and a species-genus ratio of 13.6, were surveyed by scuba diving in transects laid at six depths on each site. Species diversity and abundance were generally high in the rocky bottom habitats with a general trend of the two variables decreasing with depth, except at Likoma and Chizumulu Islands where they increased with increasing depth. This was due to dominant species inhabiting water depths of 10 to 15 m. Relative abundance was generally low in all the sites where few species had relative abundance of more than 10%. The same was applied to relative site frequency; more than 60% of the species were rare with relative site frequency of less than 10%. These low estimates support the fact that most of the Mbuna species are endemic within localities in the lake. Southern part of the lake has lower abundance and richness of Mbuna with the exception of islands compared to the northern part of the lake. This is explained by high prevalence of sandy and muddy lake bottom in the south as opposed to rocky bottom in the north.展开更多
基金Supported by National Natural Science Foundation of China (No.30870441,40331008)the Project of Chinese Academy of Sciences (No.KSCX2-SW-133)
文摘Issues of scale and aggregation become important when large range of space and time scales is considered in landscape models.However,identifying appropriate levels of aggregation to accurately represent the processes and components of ecological systems is challenging.A raster-based spatially explicit forest landscape model,LANDIS,was used to study the effects of spatial aggregation on simulated spatial pattern and ecological process in Youhao Forest Bureau of the Small Khingan Mountain in Northeastern China.The model was tested over 500 simulation years with systematically increased levels of spatial aggregation.The results show that spatial aggregation significantly influences the simulation of fire disturbance,species abundance,and spatial pattern.Simulated fire regime was relatively insensitive to grain size between 30.m and 270.m in the region.Spatial aggregation from 300.m to 480.m dramatically decreased fire return interval(FRI) and increased mean fire size.Generally,species abundance and its aggregation index(AI) remained higher level over simulation years at the fine-grained level of spatial aggregation than at coarser grains.In addition,the simulated forest dynamics was more realistic at finer grains.These results suggest that appropriate levels of spatial aggregation for the model should not be larger than 270m.
文摘Studies were carried out to determine species richness and abundance of rock-dwelling cichlids, Mbuna, in Lake Malawi. A total of 40 heterogeneous sites which yielded 10 genera, 136 species and a species-genus ratio of 13.6, were surveyed by scuba diving in transects laid at six depths on each site. Species diversity and abundance were generally high in the rocky bottom habitats with a general trend of the two variables decreasing with depth, except at Likoma and Chizumulu Islands where they increased with increasing depth. This was due to dominant species inhabiting water depths of 10 to 15 m. Relative abundance was generally low in all the sites where few species had relative abundance of more than 10%. The same was applied to relative site frequency; more than 60% of the species were rare with relative site frequency of less than 10%. These low estimates support the fact that most of the Mbuna species are endemic within localities in the lake. Southern part of the lake has lower abundance and richness of Mbuna with the exception of islands compared to the northern part of the lake. This is explained by high prevalence of sandy and muddy lake bottom in the south as opposed to rocky bottom in the north.
