The effect of water temperature and flow on respiration in barnacles: patterns of mass transfer versus kinetic limitation

Nishizaki, Michael T.; Carrington, Emily

doi:10.1242/jeb.101030

Cited by 23 publications

(25 citation statements)

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“…For instance, changes in temperature have been linked to ecological shifts in species distribution (Jones et al 2009, Sorte et al 2010, Poloczanska et al 2013, feeding/foraging behavior (Sanford 1999, Yamane and Gilman 2009, Nishizaki and Carrington 2014a, Hayford et al 2015, biomaterial production/performance (O'Donnell et al 2013), and seasonal phenology of reproductive activity (Poloczanska et al 2013, Philippart et al 2014, Neeman et al 2015. Thermal conditions also affect physiological function as measured through changes in respiration (Pö rtner 2002, Nishizaki andCarrington 2014b), heart rate (DeFur and Mangum 1979, Marshall et al 2011), photosynthesis (Colvard et al 2014), growth (Nishizaki and Carrington, in press), Hsp expression (Hamdoun et al 2003, Todgham et al 2006, Gracey et al 2008, protein abundance (Tomanek and Zuzow 2010) and phosphorylation of stress-activated protein kinases (Anestis et al 2007). However, the efficacy of these varied responses is often rooted in an organism's ability to fulfill precise developmental patterns (Burggren and Warburton 2005).…”

Section: Introductionmentioning

confidence: 99%

Thermal stress increases fluctuating asymmetry in marine mussels: environmental variation and developmental instability

2015

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Citation: Nishizaki, M. T., S. Barron, and E. Carew. 2015. Thermal stress increases fluctuating asymmetry in marine mussels: environmental variation and developmental instability. Ecosphere 6(5):85. http://dx.doi.org/10.1890/ ES14-00399.1Abstract. Faced with rising environmental temperatures, there is growing evidence that species are exhibiting shifts in ecological distribution, physiological performance, and behavioral strategy. Less is understood, however, about links between environmental conditions and the precision with which organisms are able to fulfill their developmentally programmed phenotype. Here, we report that developmental instability, assessed by the fluctuating asymmetry (FA) of right versus left valves in intertidal mussel shells, increases under elevated thermal stress. In a growth experiment, mussels that were exposed to elevated aerial temperatures (21.58 6 0.18C) for three hours each day displayed higher levels of FA compared to mussels exposed to cooler aerial temperatures (12.68 6 0.18C). Reciprocal field transplant experiments revealed that FA increased under higher aerial temperatures (e.g., on a south facing surface [19.68 6 0.28C]) compared to individuals living in cooler habitats (e.g., on a north facing surface [15.28 6 0.28C] or lower in the intertidal zone [14.18 6 0.68C]). Together, these results imply that the precision of developmental processes can be perturbed by environmental conditions and raise developmental instability as a potential impact of future environmental variability alongside shifts in physiology, behavior and biogeographic distribution.

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Section: Introductionmentioning

confidence: 99%

Thermal stress increases fluctuating asymmetry in marine mussels: environmental variation and developmental instability

2015

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“…At low temperatures, limited O 2 availability and feeding activity may combine to depress growth. For extremely warm temperatures, high metabolic demand can impose similar limits on growth (Nishizaki and Carrington, 2014b). These predictions provide a comparison for barnacle growth data collected in the mesocosm and field experiments.…”

Section: Discussionmentioning

confidence: 78%

“…3A and 6). In addition, cirral lengths in both the mesocosm and the field were reduced at higher Contour lines represent intervals of 5 J and black circles indicate environmental conditions used in the mesocosm experiment and (B) predicted energies available for production under conditions matched to the mesocosm experiment, based on Joules gained from measured feeding rates (Nishizaki and Carrington, 2014a) and respiration rates (Nishizaki and Carrington, 2014b) under different water velocities and temperatures.…”

Section: Discussionmentioning

confidence: 99%

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The effect of water temperature and velocity on barnacle growth: Quantifying the impact of multiple environmental stressors

Nishizaki

Carrington

2015

Journal of Thermal Biology

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Organisms employ a wide array of physiological and behavioral responses in an effort to endure stressful environmental conditions. For many marine invertebrates, physiological and/or behavioral performance is dependent on physical conditions in the fluid environment. Although factors such as water temperature and velocity can elicit changes in respiration and feeding, the manner in which these processes integrate to shape growth remains unclear. In a growth experiment, juvenile barnacles (Balanus glandula) were raised in dockside, once-through flow chambers at water velocities of 2 versus 19 cm s(-1) and temperatures of 11.5 versus 14 °C. Over 37 days, growth rates (i.e., shell basal area) increased with faster water velocities and higher temperatures. Barnacles at high flows had shorter feeding appendages (i.e., cirri), suggesting that growth patterns are unlikely related to plastic responses in cirral length. A separate experiment in the field confirmed patterns of temperature- and flow-dependent growth over 41 days. Outplanted juvenile barnacles exposed to the faster water velocities (32±1 and 34±1 cm s(-1); mean±SE) and warm temperatures (16.81±0.05 °C) experienced higher growth compared to individuals at low velocities (1±1 cm s(-1)) and temperatures (13.67±0.02 °C). Growth data were consistent with estimates from a simple energy budget model based on previously measured feeding and respiration response curves that predicted peak growth at moderate temperatures (15 °C) and velocities (20-30 cm s(-1)). Low growth is expected at both low and high velocities due to lower encounter rates with suspended food particles and lower capture efficiencies respectively. At high temperatures, growth is likely limited by high metabolic costs, whereas slow growth at low temperatures may be a consequence of low oxygen availability and/or slow cirral beating and low feeding rates. Moreover, these results advocate for approaches that consider the combined effects of multiple stressors and suggest that both increases and decreases in temperature or flow impact barnacle growth, but through different physiological and behavioral mechanisms.

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“…es batu pada kotak styrofoam untuk menjaga suhu media tetap stabil pada suhu rendah. Peningkatan suhu menyebabkan peningkatan viskositas dan juga menyebabkan penurunan kelarutan gas dalam air, misalnya gas O 2 , CO 2 , N 2 , dan CH 4 (Goodrich et al, 2011;Wang et al, 2011;Nishizaki & Carrington, 2014 …”

Section: Analisis Dataunclassified

The use of zeolite, active carbon, and clove oil in closed transportation of giant freshwater prawn juvenile

Anandasari¹,

Supriyono²,

Carman³

et al. 2015

Jurnal Akuakultur Indonesia

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ABSTRACT The objective of this study was to determine the effect of zeolite, active carbon, and clove oil on water quality (dissolved oxygen/DO, total ammonia nitrogen/TAN, temperature) and biological quality (glucose concentration, total protein, survival/SR) of giant freshwater prawn juvenile Macrobrachium rosenbergii in closed transportation system. The study was conducted in laboratory scale with a completely randomized design. The biota used was juvenile giant prawn with an average weight 0.407 ± 0.005 g/ind. The type and dose of additive used were A (20 g/L zeolite + 10 g/L active carbon + 14 µL/L clove oil), B (20 g/L zeolite + 10 g/L active carbon + 9.33 µL/L clove oil), C (20 g/L zeolite + 10 g/L active carbon + 4.67 µL/L clove oil), D (20 g/L zeolite + 10 g/L active carbon + 1.87 µL/L clove oil), K+ (20 g/L zeolite + 10 g/L active carbon), and K- (without material addition). The glucose concentration of treatment B and C significantly different with treatment A, D, K+, K-. Total protein of treatment A, B, C and K+ significantly different with treatment K-. DO, TAN, and temperature of the transportation media were still in the suitable concentration for living of giant prawn. The highest survival of the prawn was observed in group C. The result showed the combination of 20 g/L zeolite + 10 g/L active carbon + 4.67 µL/L clove oil in the water is suitable for closed transportation system for juvenile giant freshwater prawn. Keywords: glucose concentration, total protein, DO, TAN, temperature ABSTRAK Penelitian ini bertujuan untuk menentukan pengaruh pemberian zeolit, karbon aktif, dan minyak cengkeh terhadap kualitas air (dissolved oxygen/DO, total ammonia nitrogen/TAN, suhu) dan kualitas biologi (konsentrasi glukosa, total protein, tingkat kelangsungan hidup/TKH) benih udang galah Macrobrachium rosenbergii pada sistem transportasi tertutup. Penelitian dilakukan pada skala laboratorium dengan rancangan acak lengkap. Biota yang digunakan yaitu benih udang galah dengan bobot rata-rata 0,407±0,005 g/ekor. Dosis bahan tambahan yang digunakan adalah: A (20 g/L zeolit + 10 g/L karbon aktif + 14 µL/L minyak cengkeh), B (20 g/L zeolit + 10 g/L karbon aktif + 9,33 µL/L minyak cengkeh), C (20 g/L zeolit + 10 g/L karbon aktif + 4,67 µL/L minyak cengkeh), D (20 g/L zeolit + 10 g/L karbon aktif + 1,87 µL/L minyak cengkeh), K+ (20 g/L zeolit + 10 g/L karbon aktif), dan K- (tanpa bahan tambahan). Konsentrasi glukosa perlakuan B dan C berbeda nyata dengan perlakuan A, D, K+, K-. Total protein perlakuan A, B, C, D, dan K+ berbeda nyata dengan perlakuan K-. DO, TAN dan suhu media transportasi masih sesuai dengan kehidupan udang galah. Tingkat kelangsungan hidup transportasi tertinggi yaitu pada perlakuan C. Hasil menunjukkan bahwa kombinasi 20 g/L zeolit + 10 g/L karbon aktif + 4,67 µL/L minyak cengkeh adalah perlakuan yang sesuai untuk transportasi tertutup benih udang galah. Kata kunci: konsentrasi glukosa, total protein, DO, TAN, suhu

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The effect of water temperature and flow on respiration in barnacles: patterns of mass transfer versus kinetic limitation

Cited by 23 publications

References 88 publications

Thermal stress increases fluctuating asymmetry in marine mussels: environmental variation and developmental instability

Thermal stress increases fluctuating asymmetry in marine mussels: environmental variation and developmental instability

The effect of water temperature and velocity on barnacle growth: Quantifying the impact of multiple environmental stressors

The use of zeolite, active carbon, and clove oil in closed transportation of giant freshwater prawn juvenile

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