Supplement 1. Non-transformed data used in statistical analysis of the effects of temperature and resource utilization on bacterial production in two rivers.
<h2>File List</h2><blockquote>
<p><a href="EEA_data.txt">EEA_data.txt</a></p>
</blockquote><h2>Description</h2><blockquote>
<p>The EEA data.txt file is a tab-separated ASCII file. The file contains the
non-transformed data used in statistical analyses of the effects of temperature
and resource utilization on bacterial production in two rivers.</p>
<p>Rates measured in the lab at 20˚C were converted to rates at ambient
temperature using the following equations: BP(T) = BP(T<sub>0</sub>)e<sup>-Ea/k</sup><sup>(1/T0-1/T)</sup> and <sup>App</sup>Vmax(T) = <sup>App</sup>Vmax(T<sub>0</sub>)e<sup>-Ea/k</sup><sup>(1/T0-1/T)</sup>, where BP represents bacterial production, <sup>App</sup>Vmax is the observed maximum
extracellular enzyme activity (EEA) rate, T denotes ambient stream temperature (in K), and T<sub>0</sub> equals 293 K (or 20 ˚C); E<sub>a</sub> is the activation
energy (eV) of the process, and k is Boltzmann's constant (8.62 x 10<sup>-5</sup> eV K<sup>-1</sup>). The activation energy (E<sub>a</sub>) was assumed to be 0.5 eV for bacterial production
and maximum EEA rates.</p>
<p>Column definitions:</p>
<p>1 = Study name; more detailed information can be
found at Sinsaubaugh et al. 1997. Limnology and Oceanography 42:29–38.</p>
<p>2 = Ambient temperature (˚C)</p>
<p>3 = Inverse absolute temperature (1/kT) where k is Boltzmann's constant
(8.62 x 10<sup>-5</sup> eV K<sup>-1</sup>) and T is ambient temperature in K</p>
<p>4 = Bacterial production (BP, nmol h<sup>-1</sup> L<sup>-1</sup>)</p>
<p>5 = Acetyl-esterase (AE) maximum activity rate (<sup>App</sup>Vmax)
(nmol h<sup>-1</sup> L<sup>-1</sup>)</p>
<p>6 = The half saturation constant (the substrate
concentration at which the rate of substrate conversion is equal to Vmax/2) (<sup>App</sup>Km, nmol) for AE activity</p>
<p>7 = The turnover rate (S<sub>t</sub>, h<sup>-1</sup>) of AE defined as <sup>App</sup>Vmax/2<sup>App</sup>Km </p>
<p>8 = Endoprotease (EP)
maximum activity rate (<sup>App</sup>Vmax) (nmol h<sup>-1</sup> L<sup>-1</sup>)</p>
<p>9 = The half saturation constant (the substrate
concentration at which the rate of substrate conversion is equal to Vmax/2) (<sup>App</sup>Km, nmol) for EP activity</p>
<p>10 = The turnover rate (S<sub>t</sub>, h<sup>-1</sup>) of EP defined as <sup>App</sup>Vmax/2<sup>App</sup>Km</p>
<p>11 = Leucyl-aminopeptidase (LAP) maximum activity rate (<sup>App</sup>Vmax) (nmol h<sup>-1</sup> L<sup>-1</sup>)</p>
<p>12 = The half saturation constant (the substrate
concentration at which the rate of substrate conversion is equal to Vmax/2) (<sup>App</sup>Km, nmol) for LAP activity</p>
<p>13 = The turnover rate (S<sub>t</sub>, h<sup>-1</sup>) of LAP defined as <sup>App</sup>Vmax/2<sup>App</sup>Km</p>
<p>14 = alpha-1,4-glucosidase (AG) maximum activity rate (<sup>App</sup>Vmax) (nmol h<sup>-1</sup> L<sup>-1</sup>)</p>
<p>15 = The half saturation constant (the substrate
concentration at which the rate of substrate conversion is equal to Vmax/2) (<sup>App</sup>Km, nmol) for AG activity</p>
<p>16 = The turnover rate (S<sub>t</sub>, h<sup>-1</sup>) of AG defined as <sup>App</sup>Vmax/2<sup>App</sup>Km</p>
<p>17 = beta-1,4-glucosidase (BG) maximum activity rate (<sup>App</sup>Vmax) (nmol h<sup>-1</sup> L<sup>-1</sup>)</p>
<p>18 = The half saturation constant (the substrate concentration
at which the rate of substrate conversion is equal to Vmax/2) (<sup>App</sup>Km, nmol) for BG activity</p>
<p>19 = The turnover rate (S<sub>t</sub>, h<sup>-1</sup>) of BG defined as <sup>App</sup>Vmax/2<sup>App</sup>Km</p>
<p>20 = Alkaline phosphatase (AP) maximum activity rate (<sup>App</sup>Vmax) (nmol h<sup>-1</sup> L<sup>-1</sup>)</p>
<p>21 = The half saturation constant (the substrate
concentration at which the rate of substrate conversion is equal to Vmax/2) (<sup>App</sup>Km, nmol) for AP activity</p>
<p>22 = The turnover rate (S<sub>t</sub>, h<sup>-1</sup>) of AP defined as <sup>App</sup>Vmax/2<sup>App</sup>Km</p>
<p>23 = Carbohydrate turnover rate (S<sub>t</sub>, h<sup>-1</sup>); the
sum of BG and AG turnover rates</p>
<p>24 = Protein turnover rate (S<sub>t</sub>, h<sup>-1</sup>); the
sum of LAP and EP turnover rates</p>
<p>25 = Ratio of carbohydrate:protein turnover
(dimensionless)</p>
<p>26 = Resource pools contributing to bacterial
production defined as the sum of <sup>App</sup>Vmax/2 for all extracellular
enzyme activities (EEA)</p>
<p>Missing values are represented as
“.”.</p>
<p>Check sum values:</p>
<p>Column 2: check sum = 962, 0 missing values<br>
Column 3: check sum = 2197, 0 missing values<br>
Column 4: check sum = 194769, 4 missing values<br>
Column 5: check sum = 183177, 1 missing value<br>
Column 6: check sum = 1359360, 0 missing values<br>
Column 7: check sum = 4.615, 0 missing values<br>
Column 8: check sum = 246091, 14 missing values<br>
Column 9: check sum = 3954300, 14 missing values<br>
Column 10: check sum = 1.59, 14 missing values<br>
Column 11: check sum = 50756, 0 missing values<br>
Column 12: check sum = 2945410, 0 missing values<br>
Column 13: check sum = 0.54, 0 missing values<br>
Column 14: check sum = 73194, 4 missing values<br>
Column 15: check sum = 3.91, 4 missing values<br>
Column 16: check sum = 4733, 1 missing value<br>
Column 17: check sum = 124638, 1 missing value<br>
Column 18: check sum = 5.96, 1 missing value<br>
Column 19: check sum = 24782, 1 missing value<br>
Column 20: check sum = 291090, 0 missing values<br>
Column 21: check sum = 3.04, 0 missing values<br>
Column 22: check sum = 9.87, 0 missing values<br>
Column 23: check sum = 2.13, 0 missing values<br>
Column 24: check sum = 408, 0 missing values<br>
Column 25: check sum = 225418, 14 missing values </p></blockquote
