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71.
N. DELPIERRE †‡ K. SOUDANI †‡ C. FRANÇOIS †‡ B. KÖSTNER§ J.-Y. PONTAILLER †‡ E. NIKINMAA¶ L. MISSON M. AUBINET C. BERNHOFER§ A. GRANIER†† T. GRÜNWALD§ B. HEINESCH B. LONGDOZ†† J.-M. OURCIVAL S. RAMBAL T. VESALA¶ E. DUFRÊNE †‡ 《Global Change Biology》2009,15(6):1455-1474
Temperate and boreal forests undergo drastic functional changes in the springtime, shifting within a few weeks from net carbon (C) sources to net C sinks. Most of these changes are mediated by temperature. The autumn 2006–winter 2007 record warm period was followed by an exceptionally warm spring in Europe, making spring 2007 a good candidate for advances in the onset of the photosynthetically active period. An analysis of a decade of eddy covariance data from six European forests stands, which encompass a wide range of functional types (broadleaf evergreen, broadleaf deciduous, needleleaf evergreen) and a wide latitudinal band (from 44° to 62°N), revealed exceptional fluxes during spring 2007. Gross primary productivity (GPP) of spring 2007 was the maximum recorded in the decade examined for all sites but a Mediterranean evergreen forest (with a +40 to +130 gC m?2 anomaly compared with the decadal mean over the January–May period). Total ecosystem respiration (TER) was also promoted during spring 2007, though less anomalous than GPP (with a +17 to +93 gC m?2 anomaly over 5 months), leading to higher net uptake than the long‐term mean at all sites (+12 to +79 gC m?2 anomaly over 5 months). A correlative analysis relating springtime C fluxes to simple phenological indices suggested spring C uptake and temperatures to be related. The CASTANEA process‐based model was used to disentangle the seasonality of climatic drivers (incoming radiation, air and soil temperatures) and biological drivers (canopy dynamics, thermal acclimation of photosynthesis to low temperatures) on spring C fluxes along the latitudinal gradient. A sensitivity analysis of model simulations evidenced the roles of (i) an exceptional early budburst combined with elevated air temperature in deciduous sites, and (ii) an early relief of winter thermal acclimation in coniferous sites for the promotion of 2007 spring assimilation. 相似文献
72.
CINZIA FISSORE CHRISTIAN P. GIARDINA† CHRISTOPHER W. SWANSTON‡ GARY M. KING§ RANDALL K. KOLKA¶ 《Global Change Biology》2009,15(9):2295-2310
We investigated mean residence time (MRT) for soil organic carbon (SOC) sampled from paired hardwood and pine forests located along a 22 °C mean annual temperature (MAT) gradient in North America. We used acid hydrolysis fractionation, radiocarbon analyses, long-term laboratory incubations (525-d), and a three-pool model to describe the size and kinetics of the acid insoluble C (AIC), active and slow SOC fractions in soil. We found that active SOC was 2 ± 0.2% (mean ± SE) of total SOC, with an MRT of 33 ± 6 days that decreased strongly with increasing MAT. In contrast, MRT for slow SOC and AIC (70 ± 6% and 27 ± 6% of total SOC, respectively) ranged from decades to thousands of years, and neither was significantly related to MAT. The accumulation of AIC (as a percent of total SOC) was greater in hardwood than pine stands (36% and 21%, respectively) although the MRT for AIC was longer in pine stands. Based on these results, we suggest that the responsiveness of most SOC decomposition in upland forests to global warming will be less than currently modeled, but any shifts in vegetation from hardwood to pine may alter the size and MRT of SOC fractions. 相似文献
73.
The destruction and fragmentation of tropical forests are major sources of global biodiversity loss. A better understanding
of anthropogenically altered landscapes and their relationships with species diversity and composition is needed in order
to protect biodiversity in these environments. The spatial patterns of a landscape may control the ecological processes that
shape species diversity and composition. However, there is little information about how plant diversity varies with the spatial
configuration of forest patches especially in fragmented tropical habitats. The northeastern part of Puerto Rico provides
the opportunity to study the relationships between species richness and composition of woody plants (shrubs and trees) and
spatial variables [i.e., patch area and shape, patch isolation, connectivity, and distance to the Luquillo Experimental Forest
(LEF)] in tropical forest patches that have regenerated from pasturelands. The spatial data were obtained from aerial color
photographs from year 2000. Each photo interpretation was digitized into a GIS package, and 12 forest patches (24–34 years
old) were selected within a study area of 28 km2. The woody plant species composition of the patches was determined by a systematic floristic survey. The species diversity
(Shannon index) and species richness of woody plants correlated positively with the area and the shape of the forest patch.
Larger patches, and patches with more habitat edge or convolution, provided conditions for a higher diversity of woody plants.
Moreover, the distance of the forest patches to the LEF, which is a source of propagules, correlated negatively with species
richness. Plant species composition was also related to patch size and shape and distance to the LEF. These results indicate
that there is a link between landscape structure and species diversity and composition and that patches that have similar
area, shape, and distance to the LEF provide similar conditions for the existence of a particular plant community. In addition,
forest patches that were closer together had more similarity in woody plant species composition than patches that were farther
apart, suggesting that seed dispersal for some species is limited at the scale of 10 km. 相似文献
74.
Natalie V. Klinard Jordan K. Matley Silviya V. Ivanova Sarah M. Larocque Aaron T. Fisk Timothy B. Johnson 《Journal of fish biology》2021,98(1):237-250
Understanding predator–prey interactions and food web dynamics is important for ecosystem-based management in aquatic environments, as they experience increasing rates of human-induced changes, such as the addition and removal of fishes. To quantify the post-stocking survival and predation of a prey fish in Lake Ontario, 48 bloater Coregonus hoyi were tagged with acoustic telemetry predation tags and were tracked on an array of 105 acoustic receivers from November 2018 to June 2019. Putative predators of tagged bloater were identified by comparing movement patterns of six species of salmonids (i.e., predators) in Lake Ontario with the post-predated movements of bloater (i.e., prey) using a random forests algorithm, a type of supervised machine learning. A total of 25 bloater (53% of all detected) were consumed by predators on average (± S.D. ) 3.1 ± 2.1 days after release. Post-predation detections of predators occurred for an average (± S.D. ) of 78.9 ± 76.9 days, providing sufficient detection data to classify movement patterns. Tagged lake trout Salvelinus namaycush provided the most reliable classification from behavioural predictor variables (89% success rate) and was identified as the main consumer of bloater (consumed 50%). Movement networks between predicted and tagged lake trout were significantly correlated over a 6 month period, supporting the classification of lake trout as a common bloater predator. This study demonstrated the ability of supervised learning techniques to provide greater insight into the fate of stocked fishes and predator–prey dynamics, and this technique is widely applicable to inform future stocking and other management efforts. 相似文献
75.
Andy R. Griffiths Miles R. Silman William Farfn Rios Kenneth J. Feeley Karina García Cabrera Patrick Meir Norma Salinas Kyle G. Dexter 《Biotropica》2021,53(1):38-50
Understanding how evolutionary constraints shape the elevational distributions of tree lineages provides valuable insight into the future of tropical montane forests under global change. With narrow elevational ranges, high taxonomic turnover, frequent habitat specialization, and exceptional levels of endemism, tropical montane forests and trees are predicted to be highly sensitive to environmental change. Using plot census data from a gradient traversing > 3,000 m in elevation on the Amazonian flank of the Peruvian Andes, we employ phylogenetic approaches to assess the influence of evolutionary heritage on distribution trends of trees at the genus‐level. We find that closely related lineages tend to occur at similar mean elevations, with sister genera pairs occurring a mean 254 m in elevation closer to each other than the mean elevational difference between non‐sister genera pairs. We also demonstrate phylogenetic clustering both above and below 1,750 m a.s.l, corresponding roughly to the cloud‐base ecotone. Belying these general trends, some lineages occur across many different elevations. However, these highly plastic lineages are not phylogenetically clustered. Overall, our findings suggest that tropical montane forests are home to unique tree lineage diversity, constrained by their evolutionary heritage and vulnerable to substantial losses under environmental changes, such as rising temperatures or an upward shift of the cloud‐base. 相似文献
76.
JENNIFER L. NORRIS MICHAEL J. CHAMBERLAIN DANIEL J. TWEDT 《The Journal of wildlife management》2009,73(8):1368-1379
ABSTRACT Effects of silvicultural activities on birds are of increasing interest because of documented national declines in breeding bird populations for some species and the potential that these declines are in part due to changes in forest habitat. Silviculturally induced disturbances have been advocated as a means to achieve suitable forest conditions for priority wildlife species in bottomland hardwood forests. We evaluated how silvicultural activities on conservation lands in bottomland hardwood forests of Louisiana, USA, influenced species-specific densities of breeding birds. Our data were from independent studies, which used standardized point-count surveys for breeding birds in 124 bottomland hardwood forest stands on 12 management areas. We used Program DISTANCE 5.0, Release 2.0 (Thomas et al. 2006) to estimate density for 43 species with >50 detections. For 36 of those species we compared density estimates among harvest regimes (individual selection, group selection, extensive harvest, and no harvest). We observed 10 species with similar densities in those harvest regimes compared with densities in stands not harvested. However, we observed 10 species that were negatively impacted by harvest with greater densities in stands not harvested, 9 species with greater densities in individual selection stands, 4 species with greater densities in group selection stands, and 4 species with greater densities in stands receiving an extensive harvest (e.g., >40% canopy removal). Differences in intensity of harvest influenced densities of breeding birds. Moreover, community-wide avian conservation values of stands subjected to individual and group selection, and stands not harvested, were similar to each other and greater than that of stands subjected to extensive harvest that removed >40% canopy cover. These results have implications for managers estimating breeding bird populations, in addition to predicting changes in bird communities as a result of prescribed and future forest management practices. 相似文献
77.
Fourteen natural populations of the South-American Beech Nothofagus obliqua at the Eastern naturally fragmented area of its distribution range were subjected to genetic analysis using genetic markers. The genetic characterization of the analysed populations suggested probable distinct glacial origin of populations at North and South of the distribution. Furthermore, based on the allelic richness parameter, relict areas could be postulated within each of the identified latitudinal group. Natural hybridisation processes with the close related and sympatric species Nothofagus nervosa were also identified as one of the shaping forces modelling genetic variation patterns of the species. While ancient hybridisation was postulated for the northern watersheds, current hybridisation processes were suggested within the southern ones. Genetic isolation was identified as the main cause promoting the high genetic differentiation found among populations within watersheds. 相似文献
78.
Wetlands and global climate change: the role of wetland restoration in a changing world 总被引:11,自引:0,他引:11
Kevin L. Erwin 《Wetlands Ecology and Management》2009,17(1):71-84
Global climate change is recognized as a threat to species survival and the health of natural systems. Scientists worldwide are looking at the ecological and hydrological impacts resulting from climate change. Climate change will make future efforts to restore and manage wetlands more complex. Wetland systems are vulnerable to changes in quantity and quality of their water supply, and it is expected that climate change will have a pronounced effect on wetlands through alterations in hydrological regimes with great global variability. Wetland habitat responses to climate change and the implications for restoration will be realized differently on a regional and mega-watershed level, making it important to recognize that specific restoration and management plans will require examination by habitat. Floodplains, mangroves, seagrasses, saltmarshes, arctic wetlands, peatlands, freshwater marshes and forests are very diverse habitats, with different stressors and hence different management and restoration techniques are needed. The Sundarban (Bangladesh and India), Mekong river delta (Vietnam), and southern Ontario (Canada) are examples of major wetland complexes where the effects of climate change are evolving in different ways. Thus, successful long term restoration and management of these systems will hinge on how we choose to respond to the effects of climate change. How will we choose priorities for restoration and research? Will enough water be available to rehabilitate currently damaged, water-starved wetland ecosystems? This is a policy paper originally produced at the request of the Ramsar Convention on Wetlands and incorporates opinion, interpretation and scientific-based arguments. 相似文献
79.
John J. Mack 《Wetlands Ecology and Management》2009,17(2):117-130
Most plant-based indices of biotic integrity (IBIs) developed for wetlands have focused on emergent wetlands. A Vegetation
Index of Biotic Integrity (VIBI-Forest) was developed for forested wetlands in the four large ecoregions of the Ohio. Assessing
the effect of human disturbance on the ecological condition of wetland forests is complicated by several factors. First, forest
canopies can remain largely intact even after significant degradation of the herb and shrub stratum. Second, increases in
total diversity may not be good. In forested wetlands, a major artifact of disturbance is the addition of non-wetland or wetland
native or adventive plant species adapted to full sun conditions to their floras. Initial versions of the VIBI-Forest metrics
were very sensitive to disturbance-induced increases in diversity. Correcting this problem required modifying or replacing
metrics so that only forest dependent species were included in metric calculations. The final VIBI-Forest included metrics
which evaluated each forest stratum including the ground layer (% bryophyte), herb layer (shade or seed-less vascular plant
species), shrub layer (subcanopy importance value (IV), relative density of young trees), canopy (canopy IV), and composite
metrics for all vertical strata (Floristic Quality Assessment Index score, % hydrophytes, % sensitive, % tolerant). Assessing
wetland forest condition is further complicated by the fact that some successional communities after canopy death or destruction
(shrub swamp, marsh, wet meadow) may have intrinsic value as wetland community types. The solution is not to attempt to derive
a one-size-fits-all assessment method but to derive separate protocols for other successional phases that are of value or
interest. 相似文献
80.
Physiological and structural changes in response to altered precipitation regimes in a Mediterranean macchia ecosystem 总被引:1,自引:0,他引:1
Francesco Ripullone Marco Borghetti Sabrina Raddi Elisa Vicinelli Rita Baraldi Maria Rosa Guerrieri Angelo Nolè Federico Magnani 《Trees - Structure and Function》2009,23(4):823-834
Significant decrease in precipitation up to 15–20% has been observed in the Mediterranean area in the last two decades as
a consequence of climate change. To simulate an analogous scenario, the precipitation regime was altered in replicated experimental
plots in a Mediterranean macchia dominated by Arbutus unedo L. species. Two different levels of soil water content (SWC) were obtained during the summer: a mean value of 7% was obtained
in water-depleted (D) plots by a partial (−20%) rain exclusion treatment using rain gutters; while a mean value of 14% in SWC was obtained in
watered (W) plots supplying water by a sprinkler net. The physiological and structural changes were investigated over the course of
two consecutive years by measurement of water potential, gas exchange leaf carbon isotopes, leaf pigments and growth. Apart
from short-term responses, mainly related to the elastic response of stomatal conductance to soil water, a more long-lasting
and significant acclimation to water availability was observed as a result of the increase in hydraulic resistance in the
soil–plant continuum, which persisted even after the return to full water availability during the fall and winter. This response
involved the permanent down-regulation of stomatal conductance and photosynthesis, accumulation of photo-protective pigments,
as well as a reduction in shoot growth, leaf area index and an increase in shoot-bearing flowers in D plots. This acclimation response prevented the onset of any run-away damage thereby reducing the forest vulnerability to
drought. Furthermore, the imposed drought induced a slight increase or no change in intrinsic water-use efficiency (WUEint), as a result of the parallel increase in stomatal and non-stomatal limitations; conversely integrated WUE (i.e., estimated
from leaf carbon isotopes) was not affected by drought. 相似文献