Impact of the biological control agent Mesoclanis polana (Tephritidae) on bitou bush (Chrysanthemoides monilifera subsp. rotundata) in eastern Australia.

The seed fly Mesoclanis polana (Diptera: Tephritidae) was released in Australia in 1996. Its impact on seed production of bitou bush (Chrysanthemoides monilifera subsp. rotundata) was monitored at eight sites along the New South Wales coast from 1996 to 2004. Peak flowerhead production occurred in autumn (March to May); therefore, samples collected in May of each year were used to compare abundance and impact of M. polana across sites and between years. Latitude had a significant effect on abundance and impact of M. polana. By May 2004, 99.6% of flowerheads at the five most northern sites contained at least one egg, while 64% of flowerheads from the two most southern sites contained at least one egg. In May 2004, mean numbers of M. polana eggs per flowerhead were between 13 and 17 at four of the six northern sites and below two at the two southern sites. In May 2004, average seed destruction by M. polana was 58% at the four most northern sites and 11% at the two most southern sites. The highest level of seed destruction recorded was 86% at Kingscliff in May 2003. Percentage seed destruction in May provided a reasonable estimate of seed destruction for the whole year. Parasitoids were found throughout the range of M. polana in Australia. Their attack rate on M. polana was less than 10% at all sites, except at the two most northern sites where parasitism of up to 27% was recorded. Parasitism results are compared with predictions made following an earlier study. The release of Mesoclanis magnipalpis, a species suited to cooler environments, is recommended for the southern range of C. monilifera subsp. rotundata.

Hemodynamic responses during leg press exercise in patients with chronic congestive heart failure.

To increase muscle mass and strength in patients with chronic congestive heart failure (CHF), there is a need for implementing resistance exercises in exercise training programs. This study sought to assess the safety of rhythmic strength exercise with respect to left ventricular function in 9 patients with stable CHF, compared with 6 stable coronary patients with mild left ventricular dysfunction (control group). With use of right-sided catheterization, changes in left ventricular function were assessed during double leg press exercise at loads of 60% and 80% of maximum voluntary contraction. The exercise sessions lasted 14 minutes each, divided into work and recovery phases of 60/120 seconds. In CHF, during exercise at a 60% load, there was a significant increase in heart rate (mean +/- SEM 90 +/- 4 beats/min; p <0.05), mean arterial blood pressure (95 +/- 3 mm Hg; p <0.01), diastolic pulmonary artery pressure (20.2 +/- 2.7 mm Hg; p <0.01), and cardiac index (3 +/- 0.3 L/m2/min; p <0.05). Additionally, during leg press exercise at an 80% load, there was a significant decrease in systemic vascular resistance (1,086 +/- 80 dynes x s x cm(-5); p <0.001), an increased cardiac index (3.4 +/- 0.1; p <0.001), and left ventricular stroke work index (75 +/- 5 g x m/m2; p <0.01), suggesting enhanced left ventricular function. Compared with controls, in CHF the magnitude of changes in hemodynamic parameters during exercise, demonstrated at a 60% load, was significantly smaller (systemic vascular resistance: [mean] 1,613 --> 1000 vs 1472 --> 1,247 dynes x s x cm(-5); cardiac index: 2.4 --> 3 vs 2.8 --> 4.4 L/m2/min, and stroke work index: 60 --> 69 vs 114 --> 155 g x m/m2; p <0.05 each). Nevertheless, changes indicated an enhanced contractile function of the left ventricle in CHF. This study demonstrates stability of left ventricular function during resistance exercise in well-compensated CHF patients with optimal drug therapy, as well as the appropriateness of the chosen mode and intensity applied as these factors relate to cardiovascular stress. This conclusion cannot be extrapolated to patients with less well-compensated heart failure, or to more protracted resistance training.