As the largest pool of terrestrial organic carbon, soils interact strongly with atmosphere composition, climate, and land change. Soil organic carbon dynamics in ecosystem plays a great role in global carbon cycle and...As the largest pool of terrestrial organic carbon, soils interact strongly with atmosphere composition, climate, and land change. Soil organic carbon dynamics in ecosystem plays a great role in global carbon cycle and global change. With development of mathematical models that simulate changes in soil organic carbon, there have been considerable advances in understanding soil organic carbon dynamics. This paper mainly reviewed the composition of soil organic matter and its influenced factors, and recommended some soil organic matter models worldwide. Based on the analyses of the developed results at home and abroad, it is suggested that future soil organic matter models should be developed toward based-process models, and not always empirical ones. The models are able to reveal their interaction between soil carbon systems, climate and land cover by technique and methods of GIS (Geographical Information System) and RS (Remote Sensing). These models should be developed at a global scale, in dynamically describing the spatial and temporal changes of soil organic matter cycle. Meanwhile, the further researches on models should be strengthen for providing theory basis and foundation in making policy of green house gas emission in China.展开更多
Study on shrimp miRNAs was limited and just 7 mature miRNA sequences of Marsupenaeus japonicus are deposited in mir Base database. In this study, miRNAs and their target gene candidates were computationally identified...Study on shrimp miRNAs was limited and just 7 mature miRNA sequences of Marsupenaeus japonicus are deposited in mir Base database. In this study, miRNAs and their target gene candidates were computationally identified from shrimp Penaeu s monodon and then experimentally validated. Using 39 908 expressed sequence tags(ESTs) and 21 124 genome survey sequences(GSSs) of P. monodon(pmo) as reference dataset, a comprehensive approach based on inter-species homolog search was employed to investigate the candidate miRNAs(i.e. pmo-miRNA). A total of eight miRNAs belonging to 7 families were computationally identified and five out of them were subsequently validated by PCR and sequencing. Of these, pmo-miR-4961a, pmo-miR-4961b, pmo-miR-4979 and pmo-miR-3819 were first identified from shrimps. Both the mature pmo-miRNAs and the corresponding precursors were conserved among different species. Based on perfect or near-perfect match to the target region, the target gene candidates of pmomiRNAs were predicted from 10 331 mRNA sequences of P. monodon. A total of 20 genes were predicted as the targets of pmo-miR-4961a, pmo-miR-4961b, pmo-miR-4979 and pmo-miR-6492. Experimental validation by dual luciferase reporter assay confi rmed the targeting between 3 pmo-miRNAs and one or two of their target genes, especially the pmo-miR-4979 which could significantly down-regulate the expression of target gene(JR226772). This study updates the miRNAs and their targets in P. monodon and lays a solid foundation for future RNAi study.展开更多
The deployment of underwater networks allows researchers to collect explorative and monitoring data on underwater ecosystems.The acoustic medium has been widely adopted in current research and commercial uses,while th...The deployment of underwater networks allows researchers to collect explorative and monitoring data on underwater ecosystems.The acoustic medium has been widely adopted in current research and commercial uses,while the optical medium remains experimental only.According to our survey onthe properties of acoustic and optical communicationsand preliminary simulation results have shown significant trade-offs between bandwidth,propagation delay,power consumption,and effective communication range.We propose a hybrid solution that combines the use of acoustic and optical communication in order to overcome the bandwidth limitation of the acoustic channel by enabling optical communicationwith the help of acoustic-assisted alignment between optical transmitters and receivers.展开更多
Species assemblages and natural communities are increasingly impacted by changes in the frequency and severity of extreme climatic events. Here we propose a brief overview of expected and demonstrated direct and indir...Species assemblages and natural communities are increasingly impacted by changes in the frequency and severity of extreme climatic events. Here we propose a brief overview of expected and demonstrated direct and indirect impacts of extreme events on animal communities. We show that differential impacts on basic biological parameters of individual species can lead to strong changes in community composition and structure with the potential to considerably modify the functional traits of the community. Sudden disequilibria have even been shown to induce irreversible shifts in marine ecosystems, while cascade effects on various taxonomic groups have been highlighted in Mediterranean forests. Indirect effects of extreme climatic events are expected when event-induced habitat changes (e.g. soil stability, vegetation composition, water flows altered by droughts, floods or hurricanes) have differential consequences on species assembled within the communities. Moreover, in increasing the amplitude of trophic mismatches, extreme events are likely to turn many systems into ecological traps under climate change. Finally, we propose a focus on the potential impacts of an extreme heat wave on local assemblages as an empirical case study, analysing monitoring data on breeding birds collected in France. In this example, we show that despite specific populations were differently affected by local temperature anomalies, communities seem to be unaffected by a sudden heat wave. These results suggest that communities are tracking climate change at the highest possible rate [Current Zoology 57 (3): 406-413, 2011].展开更多
基金The research is funded by National Natural Science Foundation (40231016) and Canadian International Development Agency (CIDA).
文摘As the largest pool of terrestrial organic carbon, soils interact strongly with atmosphere composition, climate, and land change. Soil organic carbon dynamics in ecosystem plays a great role in global carbon cycle and global change. With development of mathematical models that simulate changes in soil organic carbon, there have been considerable advances in understanding soil organic carbon dynamics. This paper mainly reviewed the composition of soil organic matter and its influenced factors, and recommended some soil organic matter models worldwide. Based on the analyses of the developed results at home and abroad, it is suggested that future soil organic matter models should be developed toward based-process models, and not always empirical ones. The models are able to reveal their interaction between soil carbon systems, climate and land cover by technique and methods of GIS (Geographical Information System) and RS (Remote Sensing). These models should be developed at a global scale, in dynamically describing the spatial and temporal changes of soil organic matter cycle. Meanwhile, the further researches on models should be strengthen for providing theory basis and foundation in making policy of green house gas emission in China.
基金Supported by the National Natural Science Foundation of China(Nos.31172391,31472274)the Fundamental Research Funds for Central Universities(No.201762003)+2 种基金the Scholarship Foundation for Excellent Scientists of Shandong Province(No.BS2011SW054)the National HighTech R&D Program of China(863 Program)(No.2012AA10A402)the Open Funds of Institute of Biodiversity and Evolution,Ocean University of China(No.201362017)
文摘Study on shrimp miRNAs was limited and just 7 mature miRNA sequences of Marsupenaeus japonicus are deposited in mir Base database. In this study, miRNAs and their target gene candidates were computationally identified from shrimp Penaeu s monodon and then experimentally validated. Using 39 908 expressed sequence tags(ESTs) and 21 124 genome survey sequences(GSSs) of P. monodon(pmo) as reference dataset, a comprehensive approach based on inter-species homolog search was employed to investigate the candidate miRNAs(i.e. pmo-miRNA). A total of eight miRNAs belonging to 7 families were computationally identified and five out of them were subsequently validated by PCR and sequencing. Of these, pmo-miR-4961a, pmo-miR-4961b, pmo-miR-4979 and pmo-miR-3819 were first identified from shrimps. Both the mature pmo-miRNAs and the corresponding precursors were conserved among different species. Based on perfect or near-perfect match to the target region, the target gene candidates of pmomiRNAs were predicted from 10 331 mRNA sequences of P. monodon. A total of 20 genes were predicted as the targets of pmo-miR-4961a, pmo-miR-4961b, pmo-miR-4979 and pmo-miR-6492. Experimental validation by dual luciferase reporter assay confi rmed the targeting between 3 pmo-miRNAs and one or two of their target genes, especially the pmo-miR-4979 which could significantly down-regulate the expression of target gene(JR226772). This study updates the miRNAs and their targets in P. monodon and lays a solid foundation for future RNAi study.
基金supported in part by the US National Science Foundation under Grant No. 1205757 Northrop Grumman Corporation
文摘The deployment of underwater networks allows researchers to collect explorative and monitoring data on underwater ecosystems.The acoustic medium has been widely adopted in current research and commercial uses,while the optical medium remains experimental only.According to our survey onthe properties of acoustic and optical communicationsand preliminary simulation results have shown significant trade-offs between bandwidth,propagation delay,power consumption,and effective communication range.We propose a hybrid solution that combines the use of acoustic and optical communication in order to overcome the bandwidth limitation of the acoustic channel by enabling optical communicationwith the help of acoustic-assisted alignment between optical transmitters and receivers.
文摘Species assemblages and natural communities are increasingly impacted by changes in the frequency and severity of extreme climatic events. Here we propose a brief overview of expected and demonstrated direct and indirect impacts of extreme events on animal communities. We show that differential impacts on basic biological parameters of individual species can lead to strong changes in community composition and structure with the potential to considerably modify the functional traits of the community. Sudden disequilibria have even been shown to induce irreversible shifts in marine ecosystems, while cascade effects on various taxonomic groups have been highlighted in Mediterranean forests. Indirect effects of extreme climatic events are expected when event-induced habitat changes (e.g. soil stability, vegetation composition, water flows altered by droughts, floods or hurricanes) have differential consequences on species assembled within the communities. Moreover, in increasing the amplitude of trophic mismatches, extreme events are likely to turn many systems into ecological traps under climate change. Finally, we propose a focus on the potential impacts of an extreme heat wave on local assemblages as an empirical case study, analysing monitoring data on breeding birds collected in France. In this example, we show that despite specific populations were differently affected by local temperature anomalies, communities seem to be unaffected by a sudden heat wave. These results suggest that communities are tracking climate change at the highest possible rate [Current Zoology 57 (3): 406-413, 2011].
