Comparing Australian public and farmer views on agricultural land use and management practices for sustainability

Using a survey of the public (n = 2032) and broadacre farmers (n = 351) in South Australia and Victoria, Australia, this research compares public and farmers' concerns regarding the acceptability and sustainability of agricultural operations. A principal component analysis was conducted on survey responses to 15 statements capturing environmental, social and governance issues related to agriculture practices and perceptions. This analysis revealed three dimensions: (1) issues related to animal welfare, greenhouse gas emissions and food safety; (2) issues related to farm input use; and (3) the use of socially valuable assets for private profits. Compared to farmers, the public were more concerned about the undersupply of public goods (e.g., farm animal welfare), and issues related to farm input use such as the use of synthetic fertilisers and chemicals. The public and farmers reported a similar level of concern regarding the use of socially valuable assets for private profit (e.g., irrigation water extraction). Regression analyses revealed associations between concerns and socio-demographic characteristics; environmental attitudes; sources of information; and farm characteristics. This study can act as a catalyst for developing practical strategies to analyse and overcome the issues, rather than symptoms, of concern affecting the agricultural industry and its sustainability

Plants Survive Rapid Decompression: Implications for Bioregenerative Life Support

No abstract availabl

The V-ATPase complex component RNAseK is required for lysosomal hydrolase delivery and autophagosome degradation

Autophagy is a finely orchestrated process required for the lysosomal degradation of cytosoliccomponents. The final degradation step is essential for clearing autophagic cargo and recyclingmacromolecules. Using a CRISPR/Cas9-based screen, we identify RNAseK, a highly conservedtransmembrane protein, as a regulator of autophagosome degradation. Analyses of RNAseK knockout cells reveal that, while autophagosome maturation is intact, cargo degradation is severely disrupted. Importantly, lysosomal protease activity and acidification remain intact in the absence of RNAseK suggesting a specificity to autolysosome degradation. Analyses of lysosome fractions show reduced levels of a subset of hydrolases in the absence of RNAseK. Of these, the knockdown of PLD3 leads to a defect in autophagosome clearance. Furthermore, the lysosomal fraction of RNAseK-depleted cells exhibits an accumulation of the ESCRT-III complex component, VPS4a, which is required for the lysosomal targeting of PLD3. Altogether, here we identify a lysosomal hydrolase delivery pathway required for efficient autolysosome degradation

Catastrophic musculoskeletal injuries in Thoroughbred racehorses on racetracks in Gauteng, South Africa

The incidence and types of catastrophic musculoskeletal injuries in Thoroughbreds that resulted in euthanasia on selected racetracks in South Africa between 1998 and 2012 were investigated by an observational retrospective investigation. Data from the National Horseracing Authority of Southern Africa for these racetracks were used to calculate incidence rates in Thoroughbreds (n = 114) that sustained catastrophic musculoskeletal injuries during racing that required immediate euthanasia, based on the diagnosis made by the on-site veterinarian as well as on fetlock radiographs and dissections of 53 cadaver limbs of horses that sustained a catastrophic musculoskeletal injury. The proximal sesamoid bones and the distal suspensory ligament were involved in 55.26% of horses; 73.58% of the cadaver limb radiographs were of the left forelimb, 64.15% were closed fractures, and 74.47% had biaxial proximal sesamoid bone fractures. Catastrophic musculoskeletal injuries occurred almost exclusively unilaterally and involved mostly the left front leg. The average incidence rate for a catastrophic musculoskeletal injury occurring in a year at any of the tracks was 0.6 of 1000 starts

Catastrophic musculoskeletal injuries in thoroughbred racehorses on racetracks in Gauteng- South Africa

The incidence and types of catastrophic musculoskeletal injuries in Thoroughbreds that resulted in euthanasia on selected racetracks in South Africa between 1998 and 2012 were investigated by an observational retrospective investigation. Data from the National Horseracing Authority of Southern Africa for these racetracks were used to calculate incidence rates in Thoroughbreds (n = 114) that sustained catastrophic musculoskeletal injuries during racing that required immediate euthanasia, based on the diagnosis made by the on-site veterinarian as well as on fetlock radiographs and dissections of 53 cadaver limbs of horses that sustained a catastrophic musculoskeletal injury. The proximal sesamoid bones and the distal suspensory ligament were involved in 55.26% of horses; 73.58% of the cadaver limb radiographs were of the left forelimb, 64.15% were closed fractures, and 74.47% had biaxial proximal sesamoid bone fractures. Catastrophic musculoskeletal injuries occurred almost exclusively unilaterally and involved mostly the left front leg. The average incidence rate for a catastrophic musculoskeletal injury occurring in a year at any of the tracks was 0.6 of 1000 starts.The South African Veterinary Foundation and the University of Pretoria’s Research Committee.http://www.jsava.co.zaam2019Companion Animal Clinical StudiesStatistic

The Murray Darling Basin Plan is not delivering - there\u27s no more time to waste

More than five years after the Murray Darling Basin Plan was implemented, it\u27s clear that it is not delivering on its key objectives. The Basin Plan, at its core, is about reducing the amount of water that can be extracted from its streams, rivers and aquifers. It includes an environmental water strategy to improve the conditions of the wetlands and rivers of the basin. The Productivity Commission will conduct a five-yearly inquiry into the effectiveness of the Basin Plan in 2018. It is high time to explain what is really going on in the Basin and water recovery. For this reason we have all signed the Murray-Darling Basin Declaration to explain what has gone wrong, to call for a freeze on funding for new irrigation projects until the outcomes of water recovery has been fully and independently audited, and to call for the establishment of an independent, expert body to deliver on the key goals of the Water Act (2007)

DNMT3B PWWP mutations cause hypermethylation of heterochromatin

The correct establishment of DNA methylation patterns is vital for mammalian development and is achieved by the de novo DNA methyltransferases DNMT3A and DNMT3B. DNMT3B localises to H3K36me3 at actively transcribing gene bodies via its PWWP domain. It also functions at heterochromatin through an unknown recruitment mechanism. Here we find that knockout of DNMT3B causes loss of methylation predominantly at H3K9me3-marked heterochromatin and that DNMT3B PWWP domain mutations or deletion result in striking increases of methylation in H3K9me3-marked heterochromatin. Removal of the N-terminal region of DNMT3B affects its ability to methylate H3K9me3-marked regions. This region of DNMT3B directly interacts with HP1 and facilitates the bridging of DNMT3B with H3K9me3-marked nucleosomes in vitro. Our results suggest that DNMT3B is recruited to H3K9me3 marked heterochromatin in a PWWP-independent mannerthat is facilitated by the protein’s N-terminal region through an interaction with a key heterochromatin protein. More generally, we suggest that DNMT3B plays a role in DNA methylation homeostasis at heterochromatin, a process which is disrupted in cancer, aging and Immunodeficiency, Centromeric Instability and Facial Anomalies (ICF) syndrome

PRL3-DDX21 transcriptional control of endolysosomal genes restricts melanocyte stem cell differentiation

Melanocytes, replenished throughout life by melanocyte stem cells (MSCs), play a critical role in pigmentation and melanoma. Here, we reveal a function for the metastasis-associated phosphatase of regenerating liver 3 (PRL3) in MSC regeneration. We show that PRL3 binds to the RNA helicase DDX21, thereby restricting productive transcription by RNAPII at master transcription factor (MITF)-regulated endolysosomal vesicle genes. In zebrafish, this mechanism controls premature melanoblast expansion and differentiation from MSCs. In melanoma patients, restricted transcription of this endolysosomal vesicle pathway is a hallmark of PRL3-high melanomas. Our work presents the conceptual advance that PRL3-mediated control of transcriptional elongation is a differentiation checkpoint mechanism for activated MSCs and has clinical relevance for the activity of PRL3 in regenerating tissue and cancer