dataService

您的位置: 首页 > 数据服务 > 数据列表页

筛选

共检索到73条 ,权限内显示50条;

Data from: Robustness of the outcome of adult bumblebee infection with a trypanosome parasite after varied parasite exposures duri
负责人:
关键词:
genotype-by-genotype interaction;Social immunity;immune priming;Crithidia bombi;Host-parasite interaction;environmental dependence;Bombus terrestris;bumblebee
DOI:
doi:10.5061/dryad.1684v7t1
摘要:
ng larval rearing on adult resistance. We find that genotype-specific interactions are maintained, and adult resistance is not influenced. This demonstrates tha
Data from: Do larger individuals cope with resource fluctuations better? An artificial selection approach
负责人:
关键词:
Starvation resistance hypothesis;Geometric biology;Dunaliella tertiolecta;Artificial selection;Evolutionary size shift;Primary production;Fitness
DOI:
doi:10.5061/dryad.4mh47r7
摘要:
ng endurance hypothesis”. However, recovery from nitrogen limitation was independent of size – a finding unanticipated by current theories. Phytoplankton species
Data from: Towards a predictive framework for biocrust mediation of plant performance: a meta-analysis
负责人:
关键词:
germination;plant-soil (below-ground) interactions;biological soil crust;biotic resistance;meta-analysis;biotic interactions;facilitation;plant functional traits
DOI:
doi:10.5061/dryad.sr83ph7
摘要:
Understanding the importance of biotic interactions in driving the distribution and abundance of species is a central goal of plant ecology. Ea
Data from: Habitat formation prevails over predation in influencing fouling communities
负责人:
关键词:
Amphiglena mediterranea;Molgula;Salvatoria clavata;Leucothoe spinicarpa;Stylochoplana maculata;Polydorinae;Oerstedia dorsalis;Pisidia longicornis;Eualus cranchii;Lepidonotus squamatus;Galathea squamifera;Bivalvia;Orchomene humilis;Syllis armillaris;Bodotria;Copepoda;Gammarella fucicola;Tricellaria inopinata;Microdeutopus chelifer;Nicolea zostericola;Zeuxo;Botryllus schlosseri;Stylostomum ellipse;Cancer pagurus;Ascidiella aspersa;Cirratulidae;Watersipora subatra;Pectinidae;Ostracoda;Aoroides longimerus;Endeis spinosa;Anomia ephippium;Branchiomma bombyx;Musculus subpictus;Nicolea venustula;Chironomidae;Apocorophium acutum;Spio;Sabellidae;Jassa marmorata;urban ecology;Cycloporus papillosus;Doto;Hiatella arctica;Ampharetidae;Aonides oxycephala;Syllis;Ampithoe ramondi;Necora puber;Mysta picta;Botrylloides;Pholoe inornata;Spirorbis;Gammaropsis maculata;Terebellomorpha;Jassa falcata;Anoplodactylus petiolatus;Heteranomia squamula;Syllidia armata;Leodice;Crepidula fornicata;Maera grossimana;Clavelina lepadiformis;Mytilus;Echinogammarus stoerensis;Marinas;Laomedea flexuosa;Austrominius modestus;Polycirrus;Facelina;Psamathe fusca;Parvicardium pinnulatum;Dexamine spinosa;Aequipecten opercularis;Siriella clausii;Ophryotrocha;Janolus cristatus;Harmothoe extenuata;Pionosyllis;Microdeutopus gryllotalpa;Myrianida;Pterocirrus macroceros;Rissoa parva;Veneridae;Aora spinicornis;None;Gnathia maxillaris;Crisilla semistriata;Monocorophium acherusicum;Thecacera pennigera;Calliopidae;Thyone roscovita;Bugulina fulva;Marine invertebrates;Cancridae;Platynereis dumerilii;Psammechinus miliaris;Syllis gracilis;Ericthonius punctatus;Websterinereis glauca;Nematoda;Palaemon serratus;Goniodoris castanea;Retusidae;facilitation;Spionidae;Syllis hyalina;Lamellaria latens;Phtisica marina;Ciona intestinalis;Pista cristata;Cyanophthalma cordiceps;Nannonyx goesi;Corella eumyota;Perinereis cultrifera;Amblyosyllis Formosa;Lamellaria perspicua;non-indigenous species;Prostheceraeus vittatus;Eupolymnia nesidensis;Microprotopus longimanus;biotic resistance;Talochlamys pusio;Pilumnus hirtellus;Pherusa;Polititapes rhomboides;Ciona robusta;Kirchenpaueria pinnata;Gobiusculus flavescens;Stenothoe marina;Flabellina;Syllis columbretensis;Exogone;Nemertea;Eualus occultus;Hippolytidae;Aplidium;Lysidice ninetta;Harmothoe spinifera;Palaemon elegans;Lysianassa ceratina;Liocarcinus navigator;Harmothoe impar;Microdeutopus versiculatus;Stenothoe gallensis;Eulalia;Lumbrineris;Styela clava;Aora gracilis;Hippolyte varians;Alvania testae;Caprella acanthifera;Microdeutopus anomalus;Subadyte pellucida;Polynoidae;Janira maculosa;Janolus;Hesperibalanus fallax;Cymodoce;Asterocarpa humilis;Amathia pruvoti;Ctenodrilidae;Fabriciidae;Bugula neritina;Gammarus locusta;Sycon;Stenothoe monoculoides;predation;Diplosoma;Caprella equilibra;Alentia gelatinosa
DOI:
doi:10.5061/dryad.80780
摘要:
on, by providing refuges, habitat complexity may modify the outcome of species interactions and the extent of biotic resistance (e.g. by increasing the abundance
Data from: Persisting in defaunated landscapes: reduced plant population connectivity after seed dispersal collapse
负责人:
关键词:
genetic diversity;extinction;Population connectivity;Seed dispersal;Gallotia;Neochamaelea pulverulenta;frugivorous lizards
DOI:
doi:10.5061/dryad.pr284
摘要:
the full geographic range of the plant to examine their genetic diversity, population-genetic network topologies, and the patterns of isolation both by distance (IBD) and resistance
Data from: Changes in the chlorophyll content of grape leaves could provide a physiological index for responses and adaptation to UV-C radiation
负责人:
关键词:
UV-C;Stilbenes;stress tolerance;ROS;chlorophyll
DOI:
doi:10.5061/dryad.v3g896t
摘要:
d by biotic and abiotic stresses. The levels of chlorophylls, the main pigments in plant cells, can also indicate the tolerance of plants to various stresses. Here, the res
Data from: Increased growth in sunflower correlates with reduced defenses and altered gene expression in response to biotic and abiotic stress
负责人:
Mayrose, Maya
关键词:
Domestication Agricultural Weeds Defense Responses Gene Expression Sunflower
DOI:
doi:10.5061/dryad.gf647cc0
摘要:
, a key question is whether adaptation to agricultural environments has been accompanied by life-history trade-offs, in which resistance to (largely absent
Data from: Resequencing of common bean identifies regions of inter-gene pool introgression and provides comprehensive resources
负责人:
关键词:
genomic variation;WGS;Phaseolus vulgaris;SNPs;Repeats;CNV;Phaseolus vulgaris;markers;Multiple alignments;dataset;bean
DOI:
doi:10.5061/dryad.46pk7
摘要:
genomic regions. A large number of inter-gene-pool introgressions were identified. Furthermore, interspecific introgressions for disease resistance

首页上一页...2345下一页尾页

意 见 箱

匿名:登录

个人用户登录

找回密码

第三方账号登录

忘记密码

个人用户注册

必须为有效邮箱
6~16位数字与字母组合
6~16位数字与字母组合
请输入正确的手机号码

信息补充