1. Keystone Species Coastal Redwoods Saguaro Catci Sea Birds Scott Rohlf 3/1/10

2. Fog in the California Redwood forest: Ecosystem inputs and use by plants T.E. Dawson

3. Objectives How important is fog as a source of moisture for the plants that inhabit the ecosystem? –Redwoods use 600±145 L/day (45 m tree) –Greatest demand during summer when rain is sparse, but fog is common –During summer, deep soil water may become unavailable for shallow rooted species Areas with redwoods and without –Fog observed to not hydrate areas where trees are not present

4. Importance of Fog Can reduce plant moisture stress by reducing canopy transpiration or evaporation from habitat Improve plant water status by direct absorption When trees are removed water input from fog drip and stream flow decrease Higher water input/soil moisture around tree canopies

5. Fog formation Interaction between warm air and recently evaporated water vapor and cold water (up-welling, or currents) Causes condensation---thus fog Key Point: Heavier then rain because rains come from storm systems that have moved great distances, which causes them to become depleted in 2 H and 18 O (hence no Rayleigh Distillation in fog)

6. Methods Fog and rain samples –Total input Rain, fog, fog drip off trees –Local meteoric water line  2 H=7.7  18 O+9.6 Provided a mixing line that was more useful for interpretation local variations Plant and soil samples Plant water use –Whole tree transpiration –Sapflow sensors Different size trees

7. Mixing Models Proportion of fog water (P f ) used by plants –Two compartment mixing model (Brunel et al) Assumes water comes from 2 sources –Fog or Rain Weighted values-not all sources are equally available

8. Results Interception off trees always higher by 18-40% -stripping fog -solar radiation, wind velocities Forested areas have greater input

9. Redwoods: 8-43% Plants in Understory: 6-100% Rooting patterns, water demand, direct absorption through leaves, funnel water

10. El niño: ratio of rainfall to fog water input higher (less fog), Pf and coefficient of variation increased -plant demand for water was highest in summer when there was no rain, and fog inputs did occur Dry: Less rain in winter, so more dependence on fog in summer

11. VS. Intact forests increase annual income of water -if moisture inputs decline, so do nutrient inputs, decomposition and mineral cycling -therefore, tree loss = more drought prone, warmer, open ecosystem -plants will experience more water stress IMPACTS:

12. Saguaro Cactus : How important are they? (Review) Saguaro Cactus : How important are they? (Review) (Wolf and Martinez del Rio, 2002)

13. Saguaro cactus Succulent CAM 4000 or more liters of water Produce fruit during driest months (June-July) Fruit : water and sugar Seeds: protein, lipids and carbs  13 C = -13.1±0.2 ‰ –Most common C3= -24.9 ±0.2‰  D = 48.4±1.6 ‰ –Surface water=-37.3 to -23.5‰ Other C4 plants consumed by mammals C3=<.5% seed mass in sampled ecosystem (Wolf and Martinez del Rio, 2002)

14. Avian Species White-winged DoveMourning Dove  13 C - Collected from blood plasma and liver tissue  D – of body water (Wolf and Martinez del Rio, 2002)

15. Importance for community of Sonoran Desert birds… Determining proportion of diet that is represented by two isotopic sources: isotopic composition of 2 sources –  tissue = p(  1 +  ) + (1-p)(  2 +  ) Isotopic discrimination factor(  tissue -  diet ) fraction of diet incorporated into focal tissue Blood plasma –Stable C3 resource signal in bird community during periods when they saguaro fruit was not available –  = +3.3‰ –High turnover rate of blood plasma reflects isotopic composition of C incorporated recently (Wolf and Martinez del Rio, 2002)

16. Avian Liver and Body Water Results Mourning Dove No correlation between  13 C and  D Gained only nutrients (35% total C) for ~3 weeks in July White-winged Dove  13 C and  D linearly and positively correlated—fruit was important for C and H 2 O Saguaro fruit = >60% of diet between June and mid-Sep. Implies a difference in foraging modes (Wolf and Martinez del Rio, 2002)

17. Deuterium  D of fruit water is enriched 75-100‰ White-winged Doves –When using fruit, body water pools became enriched Peak due to evaporative losses (Wolf and Martinez del Rio, 2002)

18. Individual species Granivorous and frugivorous and insectivorous (Wolf and Martinez del Rio, 2002)

19. Introduced Predators Transform Subarctic Islands from Grassland to Tundra Impacts of introduced arctic foxes to the Aleutian Island vegetation Observed increased vegetation on fox free islands Isotopic study to show whether effects of top predators can propagate through multiple trophic levels Croll et al., 2005

20. Preliminary Data Sampled during Augusts of 2001-2003 Fox-free islands had consistently higher nutrient values and foliage cover Concept: Foxes preying on sea birds lessen amount of marine derived nutrients being deposited on land (i.e. less bird poop) Croll et al., 2005

21. Isotopic Results Fox-free islands have significantly increased  15 N over fox-infested islands Experimental plot with increased nutrient input on fox-infested island had 24x biomass over the 3yrs Croll et al., 2005