Ukuran Organ Sistem Reproduksi Itik Jantan Yang Disuplementasi Probiotik Mep+ Berbagai Dosis Selama 30 Hari

Probiotics MEP+ can increase fowl weight and weft efficiency, therefore it is important to know probiotics MEP+ effect at different dosage toward reproduction aspect. This research aimed to examine duck reproduction organ size suplemented with probiotics MEP+ with different dosage within 30 days. This research used Completely Randomized Design (CRD) with 4 treatments with different dosages within 30 days which was without probiotic\u27s application or control (K), 0,75 ml/kg wefts (P1) dose, 1,5 ml/kg wefts (P2) dose, a n d 3 ml/kg wefts (P3) dose. Each treatment repeated 8 times. Total 40 ducks raised in floor dry cage system. At 31st day of treatment duck reproduction system organ was measured. Whole results show increase average data (±SD) for weight of both right and left testis, and liver weight with highly probiotics dosage it, however the analysis result statistic not significant (P>0,05) except weight of right left testis with duck weight or gonadosomatic indeks (GSI) were very significant (P<0,01) among all treatment at different dosages was compared control. The results is confirmed that probiotic\u27s MEP+ treatment with different dosages within 30 days gave no effect towards duck reproduction system organ size except to gonadosomatic indeks (GSI) male duck

Profil dan Learning Outcomes Lulusan Pendidikan Akuntansi sebagai Referensi Lptk dalam Menyiapkan Guru Akuntansi Bermutu

The objective of this research is to stipulate the profile and learning outcome of the graduates of the Study Program of Accounting Education, the Faculty of Teacher Training and Education, Sebelas Maret University. It is intended to help the Indonesian government to prepare the qualified teacher of Accounting subject matter according to the perceptions of alumni, lecturers, stakeholders, profession associations, and decision makers.The data sources of research were 96 students, 248 alumni, 15 lecturers, 15 stakeholders, Association of Accounting Educator Profession of Indonesia, and Chief of the Study Program of Accounting Education, Sebelas Maret University. The data of research were collected through observation, documentation, and FGD. They were analyzed by using the qualitative approach.The results of research show that (1) the profile of the graduates of the Study Program of Accounting Education includes the prospective teachers of Accounting subject matter for Vocational High Schools and Senior Secondary Schools who major in Introduction to Accounting and Finance, Number Processing/Spreadsheet, Banking, Accounting of Service and Trading Company, Financial Accounting, Accounting Computer, Accounting of Manufacturing Company, and Tax Administration; prospective Accounting instructors at non-formal education programs;; edupreneurs in the field of accounting and finance; junior researchers in the field of accounting and finance; and assistant accountants, and (2) the learning outcome expected includes attitude, knowledge, general and special skills, characters, and transferable soft skills which are relevant with the demands of the general public

Amino-Functionalized Hierarchical Porous Carbon Derived from Zeolitic Imidazolate Frameworks for Ultrasensitive Electrochemical Sensing of Heavy Metals in Water

Electrochemical sensing provides a feasible avenue to monitor heavy metal ions (HMIs) in water, whereas the construction of highly sensitive and selective sensors remains challenging. Herein, we fabricated a novel amino-functionalized hierarchical porous carbon by the template-engaged method using ZIF-8 as the precursor and polystyrene sphere as the template, followed by carbonization and controllable chemical grafting of amino groups for efficient electrochemical detection of HMIs in water. The amino-functionalized hierarchical porous carbon features an ultrathin carbon framework with a high graphitization degree, excellent conductivity, unique macro-, meso-, and microporous architecture, and rich amino groups. As a result, the sensor exhibits prominent electrochemical performance with significantly low limits of detection for individual HMIs (i.e., 0.93 nM for Pb2+, 2.9 nM for Cu2+, and 1.2 nM for Hg2+) and simultaneous detection of HMIs (i.e., 0.62 nM for Pb2+, 1.8 nM for Cu2+, and 0.85 nM for Hg2+), which are superior to most reported sensors in the literature. Moreover, the sensor displays excellent anti-interference ability, repeatability, and stability for HMI detection in actual water samples

Consumption in Non-Pastoral Regions Drove Three-Quarters of Forage–Livestock Conflicts in China

Forage–livestock conflict (FLC) is a major anthropogenic cause of rangeland degradation. It poses tremendous threats to the environment owing to its adverse impacts on carbon sequestration, water supply and regulation, and biodiversity conservation. Existing policy interventions focus on the in situ FLCs induced by local production activities but overlook the role of consumption activities in driving FLCs. Here, we investigate the spatiotemporal variations in China’s FLCs and the domestic final consumers at the county level by combining remote sensing data and multi-regional input–output model. Results show that during 2005–2015, China’s pastoralism induced an average of 82 million tons of FLCs per year. Domestic final demand was responsible for 85–93% of the FLCs in China. There was spatiotemporal heterogeneity in domestic consumption driving China’s FLCs. In particular, the final demand of non-pastoral regions was responsible for around three-quarters (74–79%) of the total FLCs throughout the decade. The rangeland-based livestock raising, agricultural and sideline product processing, and catering sectors are important demand-side drivers. These findings can support targeted demand-side strategies and interregional cooperation to reduce China’s FLCs, thus mitigating rangeland degradation

Consumption in Non-Pastoral Regions Drove Three-Quarters of Forage–Livestock Conflicts in China

Forage–livestock conflict (FLC) is a major anthropogenic cause of rangeland degradation. It poses tremendous threats to the environment owing to its adverse impacts on carbon sequestration, water supply and regulation, and biodiversity conservation. Existing policy interventions focus on the in situ FLCs induced by local production activities but overlook the role of consumption activities in driving FLCs. Here, we investigate the spatiotemporal variations in China’s FLCs and the domestic final consumers at the county level by combining remote sensing data and multi-regional input–output model. Results show that during 2005–2015, China’s pastoralism induced an average of 82 million tons of FLCs per year. Domestic final demand was responsible for 85–93% of the FLCs in China. There was spatiotemporal heterogeneity in domestic consumption driving China’s FLCs. In particular, the final demand of non-pastoral regions was responsible for around three-quarters (74–79%) of the total FLCs throughout the decade. The rangeland-based livestock raising, agricultural and sideline product processing, and catering sectors are important demand-side drivers. These findings can support targeted demand-side strategies and interregional cooperation to reduce China’s FLCs, thus mitigating rangeland degradation

Additional file 1 of Microarray-based analysis of renal complement components reveals a therapeutic target for lupus nephritis

Additional file 1: Supplementary Table S1.. Clinical data of study subjects

Additional file 3 of Microarray-based analysis of renal complement components reveals a therapeutic target for lupus nephritis

Additional file 3: Supplementary Figure S2.. Enrichment and p values of upregulated KEGG pathways in the kidneys of LN patients. Dot size represents the number of genes enriched in the pathway, dot color represents the significance of each differential expression pathway, and dot position represents the enrichment degree of the pathway

Additional file 4 of Microarray-based analysis of renal complement components reveals a therapeutic target for lupus nephritis

Additional file 4: Supplementary Table S2. Detailed information of LN related pathways

Additional file 5 of Microarray-based analysis of renal complement components reveals a therapeutic target for lupus nephritis

Additional file 5: Supplementary Figure S3. Levels of C1q and C4 in plasma of SLE patients. (A) C1q in SLE patients without LN (N = 38) and patients with LN (N = 28). * p < 0.05. (B) C4 in SLE patients without LN (N = 76) and patients with LN (N = 83). (C) Correlation of the protein levels of C1q and C3 in plasma (N = 64). (D) Correlation of the protein levels of C4 and C3 in plasma (N = 145)

Additional file 6 of Microarray-based analysis of renal complement components reveals a therapeutic target for lupus nephritis

Additional file 6: Supplementary Figure S4. Immunohistochemical analysis of C3 in glomeruli (GLO) or renal tubules (TUB) of different classes of LN