国际农业科学数据导航库-农业专业知识服务系统

Data from: Moving from frugivory to seed dispersal: incorporating the functional outcomes of interactions in plant-frugivore networks

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关键词：: frugivorous birds;ecological networks;antagonism;fleshy fruits;pulp pecking;mutualistic networks;seed predation;mutualism

DOI：: doi:10.5061/dryad.r3d70m9

摘要：: , while robustness decreased. These changes were generally small, homogenous and driven by decreases in network size. Conversely, changes in species?level metrics wer

Data from: The topology of a discussion: the #occupy case

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DOI：: doi:10.5061/dryad.q1h04

摘要：: to the emergence of two classes of communicators: the 'professionals' and the 'amateurs'. Results: Both the networks present a strong community structure, based

Data from: Aneuploidy causes non-genetic individuality

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关键词：: Down Syndrome;Mus musculus;aneuploidy;gene dosage effects;Cancer;cell-to-cell variability;biological noise;Saccharomyces cerevisiae;non-genetic heterogeneity

DOI：: doi:10.5061/dryad.30mv0

摘要：: gene copy number imbalances, suggesting that subtle changes in gene expression impact the robustness of biological networks and cause alternate behaviors

Data from: Plant-pollinator interactions along an urbanization gradient from cities and villages to farmland landscapes

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关键词：: level of urbanization;plant richness;plant\u2013pollinator network;solitary bees;syrphid flies;urbanization

DOI：: doi:10.5061/dryad.4mw6m906s

摘要：: the richest pollinator communities, as they appeared to benefit from both farmland and city communities. Plant-pollinator network metrics such as robustness

Data from: Linking system-wide impacts of RNA polymerase mutations to the fitness cost of rifampin resistance in Pseudomonas aeruginosa

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关键词：: RNA polymerase mutations;pleiotropy;Antibiotic resistance mutations;Rifampicin resistance;Pseudomonas aeruginosa;Fitness cost of resistance

DOI：: doi:10.5061/dryad.vj35n

摘要：: the importance of genome-wide buffering of relative transcript levels in providing robustness against resistance mutations. IMPORTANCE Antibiotic res

Data from: Do differences in food web structure between organic and conventional farms affect the ecosystem service of pest control?

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关键词：: biodiversity;agro-ecology;parasitoid diversity;Species Interactions;Lepidoptera;networks;Hymenoptera;Diptera

DOI：: doi:10.5061/dryad.5fr85

摘要：: than on conventional farms. However, differences in network structure did not translate into differences in robustness to simulated species loss

Data from: Association between stock market gains and losses and Google searches

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关键词：: loss aversion; loss attention; exploration; stock market;search engines;Exploration;psychology;leverage effect; search engines;loss aversion;stock market;leverage effect;finance; internet; psychology;loss attention;finance;internet

DOI：: doi:10.5061/dryad.h4d22

摘要：: of real-world events triggering the search. The findings demonstrate the robustness of the attentional effect of losses.

Data from: Phylotranscriptomic consolidation of the jawed vertebrate timetree

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DOI：: doi:10.5061/dryad.r2n70

摘要：: m 100 taxa, including 23 new transcriptomes from previously unsampled key species. Gene jackknifing supports the robustness of our tree and allows

Data from: Experimentally reducing species abundance indirectly affects food web structure and robustness

负责人：: Barbosa, Milton

关键词：: networks Cerrado experimental manipulation galling insects indirect interactions non-trophic interactions parasitoid wasps parasitism species loss rupestrian grasslands

DOI：: doi:10.5061/dryad.5r2p2

摘要：: Studies on the robustness of ecological communities suggest that the loss or reduction in abundance of individual species can lead to secondary

Data from: Tree diversity increases robustness of multi-trophic interactions

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关键词：: Diospyros japonica;Tetramorium wroughtonii;Aphis gossypii;tri-trophic;Crematogaster cf. nawai;Tuberculatus radisectuae;Eutrichosiphum tattakanum;Cinnamomum camphora;bottom-up;aphid;Nyssa sinensis;Camponotus vitiosus;Aphis odinae;Camponotus albosparsus;Aphis aurantii;Tuberculatus querceus;Lachnus tropicalis;Pheidole roberti;Tuberculatus castanocallis;Technomyrmex brunneus;Phylloxera castanea;Idesia polycarpa;Tuberculatus indicus;Paraparatrechina sauteri;Siculaphis vittoriensis;Prenolepis shanialena;Pochazia speculum;Machilus leptophylla;Tuberculatus glauca;Cyclobalanopsis glauca;Iridomyrmex anceps;Tapinoma melanocephalum;Castanea henryi;Machilus thunbergii;Neonipponaphis pustulosis;Dilobocondyla fouqueti;Dolichoderus taprobanae;Kerria lacca;Pheidole noda;redundancy;Sapindus saponaria;Hemiptera;Phylloxera querceus;Crematogaster cf. rogenhoferi;Daphniphyllum oldhamii;Mollitrichosiphum tenuicorpus;Cervaphis quercus;Membracidae;Camponotus cf. compressus;Monomorium floricola;Eutrichosiphum radisectuae;Quercus serrata;Machilus grijsii;Melia azedarach;insect-plant interactions;Lithocarpus glaber;Eutrichosiphum sclerophyllum;Tuberculatus capitatus;Nylanderia flavipes;Phoebe bournei;Choerospondias axillaris;Castanopsis fargesii;Tuberculatus stigmatus;Carebara altinoda;Pristomyrmex punctatus;Celtis biondii;Camponotus pseudoirritans;Polyrhachis dives;Manglietia yuyuanensis;Castanopsis sclerophylla;Elaeocarpus chinensis;insect;Ailanthus altissima;Eutrichosiphum pasaniae;Elaeocarpus glabripetalus;stability;Betacallis querciphaga;Formicidae;Elaeocarpus japonicus;2011-2014;tree;Acer davidii;Castanopsis eyrei;Tuberculatus japonicus;Ochetellus glaber;BEF-China;Eutrichosiphum heterotrichum;Quercus phillyreoides;Paratrechina longicornis;Lepisiota cf. capensis;Quercus fabri;Schima superba;Myzus persicae;Aphis citricidus;Quercus acutissima;Prenolepis naoroji;Cyclobalanopsis myrsinaefolia;coccid;Triadica cochinchinensis;Castanopsis carlesii;biodiversity;ecosystem functioning;Meliosma flexuosa;ant;Triadica sebifera;Rhus chinensis;Diphyllaphis quercus;Pochazia obapicula;Technomyrmex obscurior;Alniphyllum fortunei;Greenidea pallidipes;Liquidambar formosana;Interaction;Tuberculatus ceroerythros;Betula luminifera;Koelreuteria bipinnata

DOI：: doi:10.5061/dryad.847km00

摘要：: phic interactions to biodiversity change are largely unclear. Thus, studying responses of multi-trophic interaction robustness to biodiversity change is crucial for understanding

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Data from: Moving from frugivory to seed dispersal: incorporating the functional outcomes of interactions in plant-frugivore networks

Data from: The topology of a discussion: the #occupy case

Data from: Aneuploidy causes non-genetic individuality

Data from: Plant-pollinator interactions along an urbanization gradient from cities and villages to farmland landscapes

Data from: Linking system-wide impacts of RNA polymerase mutations to the fitness cost of rifampin resistance in Pseudomonas aeruginosa

Data from: Do differences in food web structure between organic and conventional farms affect the ecosystem service of pest control?

Data from: Association between stock market gains and losses and Google searches

Data from: Phylotranscriptomic consolidation of the jawed vertebrate timetree

Data from: Experimentally reducing species abundance indirectly affects food web structure and robustness

Data from: Tree diversity increases robustness of multi-trophic interactions

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