Trophic responses to nutrient enrichment in a temperate seagrass food chain

Simple ecological models that predict trophic responses to bottom-up forcing are valuable tools for ecosystem managers. Traditionally, theoretical ecologists have used resource-dependent functional responses to explain the modification of food chains exposed to bottom-up perturbations. These models predict alternating positive, negative and zero responses at each trophic level. More recently, ratio-dependent functional response models that predict proportional increases at each level have challenged this paradigm. The present study tested the predictions of the 2 hypotheses empirically by comparing the relative biomasses of 4 trophic levels of an estuarine seagrass food chain in relatively undisturbed, low-nutrient catchments and ‘developed’ catchments subjected to a prolonged period of nutrient enrichment. We found that nutrient-enriched sites had significantly greater biomass of both epiphytic algae and grazing invertebrates; however, the bottom-up forcing of nutrients was attenuated at higher trophic levels (occupied by juvenile and piscivorous fish), with no significant effect of catchment development. This disconnect in the upward cascade of energy may be due to a number of possible reasons including high levels of diversity and omnivory, trophic subsidy within the system or the strength or nature of perturbations. Although the predictions of both hypotheses failed to hold across all trophic groups, ratio dependence was prevalent at the lower levels of the food chain, which has implications for catchment management.

The nature and scope of rights of removal

The rationale underlying the fixtures and accession presumptions is the need to protect the value of the chattel as well as the need to protect third-party interests. The destruction of the independent legal status of an attached chattel is generally deemed appropriate where the value of the co-mingled asset will be diminished if the chattel retains a separate legal title and this would generate unfairness because third parties have dealt with the co-mingled asset on the basis of its overall value. Rights to remove have evolved under both common law and equity to moderate the scope of these presumptions. Common law will uphold the right of a tenant to remove chattels that have been attached to leased premises during the currency of the lease. Equity on the other hand will uphold the right to remove affixed chattels in circumstances where the enforcement of such an entitlement is consistent with contractual intention and transactional fairness. This article examines the different rights of removal that have evolved under Australian law to date and the emergent statutory framework supporting these rights. It discusses the historical purpose and structural utility of these entitlements within a land framework that supports fixtures presumptions. Rights of removal, whether validated at law or in equity, confer positive entitlements upon the holder to access and remove affixed goods in circumstances where, because of the fixtures and accession presumptions, those goods no longer retain any separate legal status. The capacity of the holder to enforce this right against third parties is illustrative of their distinctive proprietary perspective.

Removal of ametryn through nanofiltration and reverse osmosis

 This study focused on the performance of nanofiltration (NF) and reverse osmosis (RO) in the removal of ametryn. Here, we investigated the effects of the applied pressure and ionic conditions on the removal of ametryn from water. It was found that the adsorption of ametryn onto NF membrane to decrease with the increase in ionic strength. Increased interaction between the NaCl electrolyte and the membrane surface is considered as the reason for the reduction in the adsorption. However, adsorption of ametryn onto the RO membrane did not show any trend. The removal of ametryn by NF and RO found to increase with the increase in the ionic strength. Retention of electrolyte salt (NaCl) on the membrane surface tends to decrease the membrane pore size which in turn increases the removal of ametryn at higher ionic strengths. It was found that up to 92% of ametryn could be removed using RO.

Ammonia nitrogen removal from aqueous solution using functionalized zeolite columns

In this study, a functionalized zeolites column was developed to remove ammonia nitrogen with a low concentration (50 mg/L) from aqueous solution. The absorption properties and regeneration capacity were investigated. Through breakthrough and elution curve for dynamic adsorption, we found the wastewater with 50 mg/L ammonia nitrogen took 7 h to flow 10 g modified zeolites column with diameters of 24 to 64 meshes at a flow rate of 2 mL/min. The saturated extent of adsorption was up to 7.95 mg/g, and the saturated adsorption time was 22 h. The process of dynamic adsorption could be fitted by the Thomas Model. The regeneration ability was optimized by 0.1 M Na2CO3 as a regenerant. With excellent absorption ability for removing ammonia nitrogen with a low concentration, the functionalized zeolites could be potentially used a high-performance adsorbent for removing ammonia nitrogen.