Estimating fishing effort and spatio-temporal distribution of longline vessels in the Indian Ocean

Protein from fish is essential for feeding the world’s population and is increasingly recognized as critical for food security. To ensure that fisheries resources can be sustainably maintained, fisheries management must be appropriately implemented. When logbook and landing records data are not complete or are incorrect, it is challenging to have an accurate understanding of catch volume. Focusing on Indonesian longline vessels operating in the Indian Ocean from 2012–2019 (n = 1124 vessels), our aims were to (1) assess compliance through identification of landing sites and potentially illicit behavior inferred by interruptions in VMS transmission, and (2) understand how the fishery operates along with quantifying the spatio-temporal distribution of fishing intensity by applying a Hidden Markov Model, which automatically classified each VMS position as fishing, steaming and anchoring. We found vessel compliance gaps in 90% of vessels in the dataset. Compliance was questionable due both to the widespread occurrence of long intermissions in relaying VMS positions (mean = 17.8 h, n = 973 vessels) and the use of unauthorized landing sites. We also observed substantial changes in fishing effort locations among years. The introduction of regulatory measures during the study period banning transshipment and foreign vessels may be responsible for the spatial shift in fishing activity we observed, from encompassing nearly the whole Indian Ocean to more recent intense efforts off western Sumatra and northern Australia

A COMPARISON OF FLUTICASONE PROPIONATE, 1-MG DAILY, WITH BECLOMETHASONE DIPROPIONATE, 2-MG DAILY, IN THE TREATMENT OF SEVERE ASTHMA

We wanted to compare the efficacy and safety of fluticasone propionate, a new topically active inhaled corticosteroid, to that of high dose beclomethasone dipropionate, in severe adult asthma. Patients currently receiving between 1.5-2.0 mg.day-1 of an inhaled corticosteroid were treated for six weeks in a double-blind, randomized, parallel group study with 1 mg.day-1 fluticasone propionate (n=82), or 2 mg.day-1 beclomethasone dipropionate (n=72). Mean morning peak expiratory flow rates (PEFR) increased from 303 to 321 l.min-1 with fluticasone propionate, and from 294 to 319 1.min-1 with beclomethasone dipropionate. There was an increase in evening PEFR, asthma symptoms improved, and rescue beta2-agonist use decreased for both treatment groups. None of these differences between treatments were statistically significant However, diurnal variation was significantly reduced with fluticasone propionate, when compared with beclomethasone dipropionate (difference = 7 l.min-1; p=0.038). Clinic lung function also improved with both treatments and, apart from % predicted PEFR, which showed no difference after beclomethasone dipropionate but increased from 73 to 78 % with fluticasone propionate, there were no differences between treatments. Forced expiratory volume in one second (FEV1) increased with both treatments. The geometric mean plasma cortisol concentration rose after treatment with fluticasone propionate (from 293 to 309 nmol.l-1) and fell after beclomethasone dipropionate (from 256 to 224 nmol.l-1); the difference between treatments was significant. The incidence of adverse events was low in both treatment groups. In conclusion, 1 mg-day-1 fluticasone propionate was as effective as 2 mg-day-1 beclomethasone dipropionate in the control of severe asthma. However, adrenal function was affected less by fluticasone propionate, which gives it a better overall safety profile. This study, therefore, demonstrates the increased therapeutic potential of fluticasone propionate over beclomethasone dipropionate in severe asthma