Timothy Lambert scite author profile

Biodiversity surveys may require the use of multiple types of sampling gear to maximize the efficiency of species detections, yet few studies have investigated how to optimally distribute effort among gear. In this study, we conducted eDNA metabarcoding and capture‐based sampling surveys (electrofishing, fyke netting, gillnetting, and seining) to sample fish species richness in a large northern temperate lake. We evaluated the success of the sampling methods individually and in combination to determine the allocation of effort and cost across sampling gear that provides the optimal approach for lake‐wide species inventories. We found that eDNA metabarcoding detected more species than any other sampling method, including 11 species that were not detected with any capture‐based approach. Optimal gear combination analyses revealed that detected species richness is maximized when most of the effort or budget is allocated to eDNA metabarcoding, with smaller allocations to seining and fyke netting. eDNA metabarcoding and capture sampling gear showed similar patterns of spatial heterogeneity in the fish community across habitat types, with pelagic samples forming a group that was distinct from nearshore samples. Our results indicate that eDNA metabarcoding is a rapid and cost‐efficient tool for biodiversity monitoring and that assessing the complementarity of multiple sampling types can inform the development of optimal approaches for measuring fish species richness.

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Impacts of food availability and pCO2 on planulation, juvenile survival, and calcification of the azooxanthellate scleractinian coral Balanophyllia elegans

Crook

Cooper

Potts

et al. 2013

Biogeosciences

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Abstract. Ocean acidification, the assimilation of atmospheric CO2 by the oceans that decreases the pH and CaCO3 saturation state (Ω) of seawater, is projected to have severe adverse consequences for calcifying organisms. While strong evidence suggests calcification by tropical reef-building corals containing algal symbionts (zooxanthellae) will decline over the next century, likely responses of azooxanthellate corals to ocean acidification are less well understood. Because azooxanthellate corals do not obtain photosynthetic energy from symbionts, they provide a system for studying the direct effects of acidification on energy available for calcification. The solitary azooxanthellate orange cup coral Balanophyllia elegans often lives in low-pH, upwelled waters along the California coast. In an 8-month factorial experiment, we measured the effects of three pCO2 treatments (410, 770, and 1220 μatm) and two feeding frequencies (3-day and 21-day intervals) on "planulation" (larval release) by adult B. elegans, and on the survival, skeletal growth, and calcification of newly settled juveniles. Planulation rates were affected by food level but not pCO2. Juvenile mortality was highest under high pCO2 (1220 μatm) and low food (21-day intervals). Feeding rate had a greater impact on calcification of B. elegans than pCO2. While net calcification was positive even at 1220 μatm (~3 times current atmospheric pCO2), overall calcification declined by ~25–45%, and skeletal density declined by ~35–45% as pCO2 increased from 410 to 1220 μatm. Aragonite crystal morphology changed at high pCO2, becoming significantly shorter but not wider at 1220 μatm. We conclude that food abundance is critical for azooxanthellate coral calcification, and that B. elegans may be partially protected from adverse consequences of ocean acidification in habitats with abundant heterotrophic food.

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Anthropogenic land-use signals propagate through stream food webs in a California, USA, watershed

et al. 2014

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An optimal algorithm for realizing a Delaunay triangulation

Lambert

1997

Information Processing Letters

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Food availability and pCO2 impacts on planulation, juvenile survival, and calcification of the azooxanthellate scleractinian coral, Balanophyllia elegans

Crook¹,

Cooper²,

Potts³

et al. 2013

Preprint

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Ocean acidification, the assimilation of atmospheric CO₂ by the oceans that decreases the pH and CaCO₃ saturation state (Ω) of seawater, is projected to have severe consequences for calcifying organisms. Strong evidence suggests that tropical reef-building corals containing algal symbionts (zooxanthellae) will experience dramatic declines in calcification over the next century. The responses of azooxanthellate corals to ocean acidification are less well understood, and because they cannot obtain extra photosynthetic energy from symbionts, they provide a system for studying the direct effects of acidification on the energy available for calcification. The orange cup coral Balanophyllia elegans is a solitary, azooxanthellate scleractinian species common on the California coast where it thrives in the low pH waters of an upwelling regime. During an 8 month study, we addressed the effects of three pCO₂ treatments (410, 770, and 1230 μatm) and two feeding frequencies (High Food and Low Food) on adult Balanophyllia elegans planulation (larval release) rates, and on the survival, growth, and calcification of their juvenile offspring. Planulation rates were affected by food level but not pCO₂, while juvenile survival was highest under 410 μatm and High Food conditions. Our results suggest that feeding rate has a greater impact on calcification of B. elegans than pCO₂. Net calcification was positive even at 1230 μatm (~ 3 times current atmospheric pCO₂), although the increase from 410 to 1230 μatm reduced overall calcification by ~ 25–45%, and reduced skeletal density by ~ 35–45%. Higher pCO₂ also altered aragonite crystal morphology significantly. We discuss how feeding frequency affects azooxanthellate coral calcification, and how B. elegans may respond to ocean acidification in coastal upwelling waters

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Timothy Lambert

Combining sampling gear to optimally inventory species highlights the efficiency of eDNA metabarcoding

Impacts of food availability and <i>p</i>CO<sub>2</sub> on planulation, juvenile survival, and calcification of the azooxanthellate scleractinian coral <i>Balanophyllia elegans</i>

Anthropogenic land-use signals propagate through stream food webs in a California, USA, watershed

An optimal algorithm for realizing a Delaunay triangulation

Food availability and <i>p</i>CO<sub>2</sub> impacts on planulation, juvenile survival, and calcification of the azooxanthellate scleractinian coral, <i>Balanophyllia elegans</i>

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Timothy Lambert

Combining sampling gear to optimally inventory species highlights the efficiency of eDNA metabarcoding

Impacts of food availability and &lt;i&gt;p&lt;/i&gt;CO&lt;sub&gt;2&lt;/sub&gt; on planulation, juvenile survival, and calcification of the azooxanthellate scleractinian coral &lt;i&gt;Balanophyllia elegans&lt;/i&gt;

Anthropogenic land-use signals propagate through stream food webs in a California, USA, watershed

An optimal algorithm for realizing a Delaunay triangulation

Food availability and &lt;i&gt;p&lt;/i&gt;CO&lt;sub&gt;2&lt;/sub&gt; impacts on planulation, juvenile survival, and calcification of the azooxanthellate scleractinian coral, &lt;i&gt;Balanophyllia elegans&lt;/i&gt;

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Product

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Impacts of food availability and <i>p</i>CO<sub>2</sub> on planulation, juvenile survival, and calcification of the azooxanthellate scleractinian coral <i>Balanophyllia elegans</i>

Food availability and <i>p</i>CO<sub>2</sub> impacts on planulation, juvenile survival, and calcification of the azooxanthellate scleractinian coral, <i>Balanophyllia elegans</i>