Shanze Li worked with Steve to synthesize 14 years of data on disturbance at the 8 GCE LTER fall monitoring sites dominated by Spartina alterniflora, and the paper was recently published in Ecosphere (Ecosphere 7(10):e01487. 10.1002/ecs2.1487). The results indicated considerable variation among sites and years in the amount of disturbance, and considerable variation between creekbank and midmarsh in the types of disturbance (wrack and slumping at the creekbank; snails in the mid-marsh). Barrier island sites experienced more disturbance than mainland sites. Wrack and snails and terminal slumping (when the plot ends up at the bottom of the creek) strongly affected biomass in affected plots, but overall, at the landscape level, disturbance did not have as strong an effect on fall biomass as abiotic conditions (salinity, sea level, temperature) did.
Tag Archives: GCE-LTER
A new study by Kazik and Steve published in Ecography contributes to the biogeography of plant antiherbivore strategies.
By applying a combination of field surveys and lab experiments we tested a prediction that resistance and tolerance to herbivory increase from high to low lattitudes in a salt marsh shrub Iva frutescens. In the field, average levels of herbivore damage, and spatial and temporal variation in herbivore damage were all greater at low latitudes, indicating that both constitutive and induced resistance should follow this pattern. A series of laboratory two-choice preference tests with Iva specialist beetle Paria revealed that both types of resistance were indeed stronger at lower latitudes. Contrary to expectations however, tolerance to herbivory in Iva (measured as leaf regrowth after a herbivory damage) did not depend on geographic origin. Our results emphasize the value of considering multiple ways in which plants respond to herbivores when examining geographic variation in plant–herbivore interactions.
Kazimierz Wieski and Steven C. Pennings. 2014. Latitudinal variation in resistance and tolerance to herbivory of a salt marsh shrub. Ecography. Early View. DOI: 10.1111/ecog.00498.
A new paper by Kazik Wieski and Steve Pennings in Ecosystems shows that Spartina alterniflora production in Georgia increases in years with high discharge from the Altamaha River during the late spring and summer. We examined 12 years of fall biomass data from 9 sites in the GCE-LTER domain, and found that river discharge increased productivity at all the sites, with plant biomass up to 3 times larger in high- versus low-discharge years. Coastal rainfall and year to year variation in sea level also affected plant growth to some extent, but not as consistently as river discharge. It is likely that all three factors affected porewater salinity, and that salinity was the proximate driver of plant production. We also found that hotter summers had lower productivity, because temperatures in GA can exceed the thermal optimum for Spartina alterniflora.
Future work by the GCE-LTER will use LandSat data to extend the S. alterniflora productivity record back in time (O’Donnell and Schalles) and will look at variation in productivity in other common marsh species (Pennings).
Kazimierz Wieski and Steven C. Pennings, 2013, Climate Drivers of Spartina alterniflora Saltmarsh Production in Georgia, USA. Ecosystems. DOI: 10.1007/s10021-013-9732-6.