. | A. aurantia . | A. marmoreus . | M. gracilis . | V. arenata . | C. turbinata . |
---|---|---|---|---|---|
Model | |||||
R2 | 0.457 | 0.107 | 0.637 | 0.735 | 0.469 |
P (EDF1) | 0.0640 (9) | 0.3064 (21) | 0.0001 (24) | 0.0001 (27) | 0.0013 (21) |
P (EDF2) | 0.151 (6) | 0.455 (14) | 0.0001 (16) | 0.0001 (18) | 0.012 (14) |
ASPD=DV × | 8.676×10–5 | 1.676×10–5 | 3.530×10–4 | 9.877×10–4 | 1.550×10–3 |
+ RYM × | –22.750 | 16.654 | –10.008 | –6.697 | –0.874 |
+ (intercept) | 25.857 | 11.481 | 4.642 | 13.507 | 1.423 |
DV | |||||
P (EDF1) | 0.2601 (9) | 0.5527 (21) | 0.0001 (24) | 0.0001 (27) | 0.0013 (21) |
P (EDF2) | 0.352 (6) | 0.650 (14) | 0.0001 (16) | 0.0001 (18) | 0.009 (14) |
RYM | |||||
P (EDF1) | 0.0352 (9) | 0.1583 (21) | 0.0016 (24) | 0.0094 (27) | 0.0385 (21) |
P (EDF2) | 0.090 (6) | 0.250 (14) | 0.011(16) | 0.035 (18) | 0.092 (14) |
. | A. aurantia . | A. marmoreus . | M. gracilis . | V. arenata . | C. turbinata . |
---|---|---|---|---|---|
Model | |||||
R2 | 0.457 | 0.107 | 0.637 | 0.735 | 0.469 |
P (EDF1) | 0.0640 (9) | 0.3064 (21) | 0.0001 (24) | 0.0001 (27) | 0.0013 (21) |
P (EDF2) | 0.151 (6) | 0.455 (14) | 0.0001 (16) | 0.0001 (18) | 0.012 (14) |
ASPD=DV × | 8.676×10–5 | 1.676×10–5 | 3.530×10–4 | 9.877×10–4 | 1.550×10–3 |
+ RYM × | –22.750 | 16.654 | –10.008 | –6.697 | –0.874 |
+ (intercept) | 25.857 | 11.481 | 4.642 | 13.507 | 1.423 |
DV | |||||
P (EDF1) | 0.2601 (9) | 0.5527 (21) | 0.0001 (24) | 0.0001 (27) | 0.0013 (21) |
P (EDF2) | 0.352 (6) | 0.650 (14) | 0.0001 (16) | 0.0001 (18) | 0.009 (14) |
RYM | |||||
P (EDF1) | 0.0352 (9) | 0.1583 (21) | 0.0016 (24) | 0.0094 (27) | 0.0385 (21) |
P (EDF2) | 0.090 (6) | 0.250 (14) | 0.011(16) | 0.035 (18) | 0.092 (14) |
Two P values are given, P (EDF1), whose error degree of freedom was based on the number of individuals sampled, and P (EDF2),whose error degree of freedom was two-thirds of this value. The numbers in parentheses following P values are the sample size on which these P values are based