Disturbance from pond management obscures local and regional drivers of assemblages of primary producers

Abstract: Summary Ponds have significant conservation value due to their potentially high contribution to local and regional diversity. However, most ponds are located in anthropogenically influenced areas, and their biodiversity is constantly threatened by human activities. Thus, knowledge of the effect of pond management on biodiversity is essential for designing effective conservation strategies. Here, we study the main drivers of diversity of three functional groups of primary producers (phytoplankton, filamentous… Show more

“…Furthermore, farm ponds created by constructing small dams in streams (Akasaka & Takamura , ; Gallego et al. ) may retain water even after being abandoned. For the conservation of ecosystem function at a regional scale, it is indispensable to clarify the relationship between the distribution of ponds in which water depletion is likely to occur after abandonment and the distribution of functionally unique species.…”

“…; Gallego et al. ; see Appendix for a summary of these variables). We obtained data on two management status variables (years since abandonment and frequency of mowing on the bank each year) and water source type by interviewing managers of the surveyed ponds and local farmers ( n = 100) from mid‐Jul to mid‐Aug 2014.…”

“…These larger ponds, therefore, appear to be able to retain water and habitats suitable for helophytes and macrophytes even after being abandoned, but the plant community in smaller ponds is more likely to undergo larger functional changes due to water depletion. Furthermore, farm ponds created by constructing small dams in streams (Akasaka & Takamura 2011Gallego et al 2014) may retain water even after being abandoned. For the conservation of ecosystem function at a regional scale, it is indispensable to clarify the relationship between the distribution of ponds in which water depletion is likely to occur after abandonment and the distribution of functionally unique species.…”

“…We collected data on 16 environmental variables that might determine the functional richness in a pond: management status (two variables), physical conditions (six), topographic conditions (two), surrounding land-use type (five) and water source type (one) (Akasaka et al 2010;Akasaka & Takamura 2011;Alahuhta et al 2013;Gallego et al 2014; see Appendix S2 for a summary of these variables). We obtained data on two management status variables (years since abandonment and frequency of mowing on the bank each year) and water source type by interviewing managers of the surveyed ponds and local farmers (n = 100) from mid-Jul to mid-Aug 2014.…”

Water depletion drives plant succession in farm ponds and overrides a legacy of continuous anthropogenic disturbance

“…Furthermore, farm ponds created by constructing small dams in streams (Akasaka & Takamura , ; Gallego et al. ) may retain water even after being abandoned. For the conservation of ecosystem function at a regional scale, it is indispensable to clarify the relationship between the distribution of ponds in which water depletion is likely to occur after abandonment and the distribution of functionally unique species.…”

“…; Gallego et al. ; see Appendix for a summary of these variables). We obtained data on two management status variables (years since abandonment and frequency of mowing on the bank each year) and water source type by interviewing managers of the surveyed ponds and local farmers ( n = 100) from mid‐Jul to mid‐Aug 2014.…”

“…These larger ponds, therefore, appear to be able to retain water and habitats suitable for helophytes and macrophytes even after being abandoned, but the plant community in smaller ponds is more likely to undergo larger functional changes due to water depletion. Furthermore, farm ponds created by constructing small dams in streams (Akasaka & Takamura 2011Gallego et al 2014) may retain water even after being abandoned. For the conservation of ecosystem function at a regional scale, it is indispensable to clarify the relationship between the distribution of ponds in which water depletion is likely to occur after abandonment and the distribution of functionally unique species.…”

“…We collected data on 16 environmental variables that might determine the functional richness in a pond: management status (two variables), physical conditions (six), topographic conditions (two), surrounding land-use type (five) and water source type (one) (Akasaka et al 2010;Akasaka & Takamura 2011;Alahuhta et al 2013;Gallego et al 2014; see Appendix S2 for a summary of these variables). We obtained data on two management status variables (years since abandonment and frequency of mowing on the bank each year) and water source type by interviewing managers of the surveyed ponds and local farmers (n = 100) from mid-Jul to mid-Aug 2014.…”

Water depletion drives plant succession in farm ponds and overrides a legacy of continuous anthropogenic disturbance

“…aquatic plants disperse via wind, water and waterfowl, whereas fish rely only on hydrological connections (Shurin et al, 2009;Hajek et al, 2012). Multiple taxonomic groups are increasingly used to assess status of freshwaters; however, the importance of spatial processes have only recently been taken into account in the bioassessment (Gray and Arnott, 2011;Anas et al, 2014;Gallego et al, 2014;Siqueira et al, 2014).…”

Quantifying the relative importance of natural variables, human disturbance and spatial processes in ecological status indicators of boreal lakes

Environmental factors structuring benthic primary producers at different spatial scales in the St. Lawrence River (Canada)