More Like this

1. Demographic differentiation among pioneer tree species during secondary succession of a Neotropical rainforest

   https://doi.org/10.1111/1365-2745.13738  

   Martínez‐Ramos, Miguel ; Gallego‐Mahecha, María del Mar ; Valverde, Teresa ; Vega, Ernesto ; Bongers, Frans ( July 2021 , Journal of Ecology)

   Early pioneer species share life histories enabling them to colonize disturbed sites, but how much they differ demographically and how such differentiation determines pioneer species turnover during succession are still open questions. Here, we approached these issues by comparing the demography of dominant pioneer tree species during the secondary succession of tropical rainforest in Southeast Mexico.

   We assessed changes in population density, population structure, vital rates and intrinsic population growth rate (r) of the pioneer speciesTrema micrantha,Cecropia peltataandTrichospermum mexicanumduring the first 35 years of succession. For this, we combined chronosequence and long‐term (from 2000 to 2018) data from 14 abandoned cornfields with 0.5–35 years fallow age.

   Tremacolonized and disappeared first during succession (<15 years), followed byCecropia(<28) andTrichospermum(>31). All species exhibited hump‐shaped successional trajectories of population density and biomass withTremareaching a peak first, followed byCecropiaand laterTrichospermum. Species exhibited a fast reduction inrwith fallow age, withTremareaching negative growth rates (r < 0) in the third,Cecropiain the fourth, andTrichospermumin the seventh year of succession. Recruitment, growth and mortality rates of seedlings and juveniles defined the period of population increase and the age of succession at which each species reached maximum density and biomass. The mortality rate in mature stages determined how long each species persisted during succession. An important variation in species replacement occurred among study sites. In some sites, one species was abundant and the others were almost absent, while it was the opposite in other sites. We inferred that priority inhibitory effects operated among species during the field colonization.

   Synthesis. AlthoughTrema,CecropiaandTrichospermumare considered typical pioneer trees, these species differed importantly in their demographic attributes during succession. The speed at whichrdeclined with age of succession indicated the moment at which each species reached its maximum density and species replacement sequence during succession. However, inter‐specific priority inhibitory effects during field colonization may also be involved in the chance of colonization and replacement between species with similar regeneration strategies.

    

   more » « less
2. An agent‐based model determining a successful reintroduction of the extinct passenger pigeon

   https://doi.org/10.1111/nrm.12292  

   Elzinga, David C. ; Boggess, Erin ; Collignon, Jordan ; Riederer, Alanna ; Capaldi, Alex ( October 2020 , Natural Resource Modeling)

   The passenger pigeon (Ectopistes migratorius) was an iconic species in eastern North America that was one of the most numerous birds in the world at the time of European colonization. Passenger pigeons went extinct in 1914 due to excessive hunting. Current research aims to de‐extinct the passenger pigeon and someday release the species into its historic range. To determine under which conditions a passenger pigeon colony could survive a reintroduction into a natural habitat, we developed an agent‐based model to simulate the population dynamics of the passenger pigeon in a number of present‐day forest environments. The model incorporates the following stochastic processes: resource distribution, reproduction, and natural death. Bioenergetics, forest composition, and other ecological values were obtained from literature. Our simulation results suggest that passenger pigeons could survive a reintroduction into a modern natural environment, but their survival can be optimized with certain release dates, sex ratios, and forest composition.

   Recommendations for Resource Managers

   Genome engineering advancements suggest that the de‐extinction of passenger pigeons is feasible; however, the ability for passenger pigeons to live in the modern forest composition of their old habitat remains unexplored. Our model suggests the following regarding reintroduction strategies:

   A successful reintroduction of passenger pigeons is plausible, but sensitive to the strategy selected. Moderate deviations from optimal reintroduction strategies can greatly diminish the probability of a successful reintroduction.

   The optimal successful reintroduction strategy has an equal number of male and female passenger pigeons released in a dense oak‐hickory forest at the peak of the forest's masting cycle.

   Beyond persistence, the population growth of passenger pigeons within 10 years is at best, limited. Efforts to monitor and protect passenger pigeons during the transient phase of their reintroduction is critical.

    

   more » « less
3. Resistance from a resident heterospecific affects establishment success of a globally invasive freshwater fish

   https://doi.org/10.1111/fwb.14035  

   Deacon, Amy E. ; Fraser, Douglas F. ; Farrell, Aidan D. ( December 2022 , Freshwater Biology)

   The role of biotic resistance is a subject of debate in our understanding of invasions. We used a well‐known system in the Northern Range of Trinidad, where ephemeral conditions in small pool habitats lead to repeated colonisation by two native species (guppies,Poecilia reticulata, and killifish,Anablepsoides hartii), to ask questions about the role of biotic resistance and intraguild predation in natural, small‐water habitats.

   Using horticultural containers under forest cover, alongside constructed bankside mesocosms, we established populations of each species to test hypotheses concerning the conditions under which the guppy, a globally successful invasive species with the potential to establish populations from a single female, could be excluded by a resident intraguild predator, the killifish.

   Recruitment success of the guppy depended on founder numbers (propagule size) and introduction order (whether first or last to arrive in the habitat). Single founder guppies always failed to recruit in pools with resident killifish, which we posit is directly attributable to biotic resistance from the resident. However, increased propagule pressure (introduction attempts and propagule number) greatly increased the probability of successful invasion.

   Our results have two main implications. The first is that guppies are capable of being successful colonisers even in the presence of a resident intraguild predator. The second is to highlight the role that biotic resistance can play in preventing establishment in small‐water habitats, especially under circumstances of low propagule pressure.

   While previous studies have shown that guppies are strong colonisers outside of their native range, our findings suggest that this may not always be the case when there are other small‐bodied fish present. Accordingly, we argue that in small‐water habitats, biotic resistance and intraguild predation relationships should be important considerations when the ability to establish is being assessed for a taxon.

    

   more » « less
4. Crayfish communities converge over succession in beaver pond metacommunities

   https://doi.org/10.1111/fwb.14250  

   Howeth, Jennifer G. ; Lozier, Jeffrey D. ; Olinger, Charles Thomas ; Dedmon, Mark L. ; Matthews, Joseph M. ; Cardoza, Sydney J. ( April 2024 , Freshwater Biology)

   Metacommunity theory predicts that the relative importance of regional and local processes structuring communities will change over ecological succession. Determining effects of these processes on taxonomic and evolutionary diversity in spatially structured freshwater habitats of different successional stages may greatly improve understanding of the maintenance of diversity across temporal and spatial scales. In this study, we evaluated crayfish diversity at local and regional scales in pond metacommunities undergoing secondary succession from beaver (Castor canadensis) disturbance. Following theoretical predictions from metacommunity ecology of the increasing importance of local processes over succession, we hypothesised a decline in crayfish local and β diversity over succession from stronger local structuring as the older ponds may provide less suitable habitat than streams.

   Crayfish species and phylogenetic diversity were evaluated in beaver pond metacommunities and reference headwater streams located in three catchment regions. DNA sequences from the mitochondrial cytochrome oxidase I gene were used to assign crayfish to species for community and phylogenetic diversity tests. Local and β diversity were contrasted across beaver ponds ranging in age from 24 to 70 years and as a function of metacommunity processes.

   Counter to predictions, local species diversity among streams and the successional stages of ponds categorised by age class (24–39 years; 42–57 years; 60–70 years) did not differ, but community and phylogenetic convergence occurred in the oldest pond ecosystems. Crayfish community composition differed between the youngest and oldest ponds, resulting from higher abundance in the youngest ponds and community convergence in the oldest ponds. The association between community composition and the environment was strongest in streams and decoupled with pond age. In contrast, the correlation between intraspecific haplotype composition and the environment increased over succession. Among the three metacommunities, the regional crayfish species diversity arose from a combination of the temporal and environmental drivers from beaver‐constructed ecosystems and dispersal limitation within catchments.

   This study represents the first investigation of the taxonomic and phylogenetic diversity response to the successional stages of beaver pond metacommunities. The detection of differential crayfish composition and haplotype sorting to pond age suggests a role for local structuring and further indicates that future studies should acknowledge succession in shaping species diversity at local and regional scales. Dispersal limitation within catchment regions probably contributes to the evolution of crayfish species diversity in metacommunities and the overall maintenance of biodiversity.

   The results support a transition in community and freshwater ecology from a recent emphasis on spatial processes towards the integration of temporal drivers to better identify regulators of taxonomic and phylogenetic diversity across scales.

    

   more » « less
5. Alternative functional trajectories along succession after different land uses in central Amazonia

   https://doi.org/10.1111/1365-2664.13484  

   Fernandes Neto, Jose G. ; Costa, Flavia R. C. ; Williamson, G. Bruce ; Mesquita, Rita C. G. ; Moore, ed., Joslin ( September 2019 , Journal of Applied Ecology)

   The recovery capacity and the successional pathways of tropical forests after anthropogenic disturbance vary considerably and may depend on prior land‐use type and intensity. It is still unclear if forests subjected to high intensity impact, such as periodically burned pastures, are capable of restoring their original functional properties.

   This study analysed the functional trait dynamics of the dominant species in successional trajectories following two land uses, pasture or clear‐cut, north of Manaus. Fourteen years of demographic data from the Biological Dynamics of Forest Fragments Project were used to determine the dominant species of the two successional trajectories, for which leaf area, leaf dry mass content, specific leaf area and wood density were collected, whereas seed mass was obtained from literature. Community weighted mean of each trait was weighted by basal area determined annually along succession. Prinicpal components analysis was used to analyse the extension and direction of the functional trajectories of plots.

   Forests regenerating from pastures increased in wood density through successional time, but other traits did not change significantly. Succession after clear‐cut exhibited increasing leaf dry mass content and seed mass, and decreasing leaf area over time, but no change in wood density. Functional trajectories of plots after clear‐cut were more extensive and directional than those of pasture‐derived plots.

   Synthesis and applications. We demonstrate how central Amazonian secondary forests subjected to different land uses show differences in functional trait trajectories, in ways parallel to previously shown changes in biomass, floristic diversity and forest structure. These results indicate that natural recovery of forest functional traits is affected by prior land‐use history, with implications for management and restoration. Thus, natural recovery of forests on abandoned pastures is much slower than clear‐cuts, even though seed sources from mature forests are very close to these areas, and the former may need intervention to counteract the diverted succession.

    

   more » « less