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Data from: Marker development for phylogenomics: the case of Orobanchaceae, a plant family with contrasting nutritional modes
负责人:
关键词:
bioinformatic pipeline;Target Enrichment;Solanum lycopersicum;Erythranthe guttata;Orobanchaceae;marker development;single copy nuclear genes;phylogenomics
DOI:
doi:10.5061/dryad.7b86c
摘要:
and, as reference, SCG data from monkeyflower (Erythranthe guttata, syn. Mimulus g.; 1,915 genes) and tomato (Solanum lycopersicum; 391 genes). Depending on whether
Data from: Invasion of Solanum tuberosum L. by Aspergillus terreus: a microscopic and proteomics insight on pathogenicity
负责人:
关键词:
phylogeny Cadmodulin locus maximum likelihood method pathogenicity
DOI:
doi:10.5061/dryad.590j0
摘要:
e discovered that A. terreus can cause foliar blight disease in potato (Solanum tuberosum L.). We used light and scanning electron microscopy, and performed
Data from: Model-assisted analysis of sugar metabolism throughout tomato fruit development reveals enzyme and carrier properties in rela
负责人:
关键词:
fruit development;carbohydrate metabolism;Solanum lycopersicum;tomato fruit;kinetic modeling
DOI:
doi:10.5061/dryad.39vb6
摘要:
-6-P contents of pericarp throughout tomato (Solanum lycopersicum) fruit development. The model was further validated using independent data obtained from
Data from: A comparison of clearfelling and gradual thinning of plantations for the restoration of insect herbivores and woodland plants
负责人:
关键词:
Allium ursinum;herbivore community;Stachys sylvatica;Calcomyza artemisiae;Castanea sativa;Athyrium filix-femina;Juncus effusus;Chrysosplenium oppositifolium;Phyllonorycter messaniella;Hymenoptera sp.;Chromatomyia aprilina;Buddleja davidii;Circaea lutetiana;Hypericum maculatum;Frangula alnus;Stigmella samiatella;Glechoma hederacea;Bucculatrix demaryella;Stigmella hybnerella;Tischeria dodonaea;Rumex acetosa;Chromatomyia nigra;Mompha raschkiella;Ranunculus flammula;Acer campestre;Ajuga reptans;Saponaria officinalis;Phytomyza sp.;Chromatomyia lonicerae;Phytomyza ilicis;Prunella vulgaris;Veronica serpyllifolia;plantation management;Festuca sp.;Epilobium ciliatum;Lyonetia clerkella;Cirsium arvense;Phyllonorycter corylifoliella;Ectoedemia minimella;Cirsium acaule;Solanum dulcamara;Festuca gigantea;Agromyza alnibetulae;Trifolium pratense;Stigmella confusella;Epilobium palustre;Hedera helix;Stigmella crataegella;Geranium robertianum;Eupatorium cannabinum;Carex pendula;Primula vulgaris;Phyllonorycter lautella;Taraxacum officinale;Hypericum androsaemum;Scolioneura betuleti;ancient woodland;Phyllonorycter quercifoliella;Pegomya solennis;Stigmella hemargyrella;Stigmella lemniscella;Dryopteris carthusiana;Phytomyza angelicastri;Galium odoratum;Larix decidua;Plantations on Ancient Woodland Sites;Fraxinus excelsior;Sorbus aucuparia;Plant Community;Rumex acetosella;Phyllonorycter rajella;Calluna vulgaris;Galeopsis tetrahit;Stigmella aurella;Ranunculus bulbosus;Rosa arvensis;Rubus fruticosus;Dioscorea communis;Cerastium fontanum;Epilobium hirsutum;Stellaria holostea;Prunus avium;Teucrium scorodonia;Phytomyza ranunculi;Sonchus asper;stigmella betulicola;Profenusa thomsoni;Juncus squarrosus;Phytomyza heterophylli;Phyllonorycter roboris;Sambucus nigra;Agromyza lucida;Urtica dioica;groundflora;Pegomya seitenstettenis;Tischeria ekebladella;Elymus caninus;Phyllonorycter cavella;woodland;Agromyza pseudoreptans;Perittia obscurepunctella;Digitalis purpurea;Agromyza sulfuriceps;Ectoedemia occultella;Salix caprea;Stigmella floslactella;Pteridium aquilinum;Phyllonorycter oxyacanthae;Phyllonorycter harrisella;Fenusa ulmi;Crepis sp.;Hypericum humifusum;Trypeta zoe;Galium uliginosum;Caloptilia rufipennella;PAWS;Phyllitis scolopendrium;Cirsium sp.;Chirosia histricina;Leaf-miners;Ranunculus acris;Tilia cordata;Coleophora serratella;Conopodium majus;Chromatomyia scolopendri;Vicia sepium;Heterarthrus nemoratus;Cytisus scoparius;Elachista argentella;Stigmella sp.;Picea abies;Alliaria petiolata;Hypericum perforatum;Trifolium sp.;Festuca altissima;Phylloporia bistrigella;Silene dioica;Quercus robur;Viola riviniana;Lathyrus pratensis;Stigmella tiliae;Cardamine flexuosa;Euphorbia amygdaloides;Geum urbanum;Mentha arvensis;Stigmella lapponica;Arum maculatum;Crataegus monogyna;Thuja plicata;Phyllonorycter maestingella;Phyllonorycter geniculella;Clematis vitalba;Stigmella splendidissimella;Betula pubescens;Parornix devoniella;Stigmella ulmivora;Angelica sylvestris;Paris quadrifolia;Liriomyza pascuum;Holcus lanatus;Phyllonorycter ulmifoliella;Lonicera periclymenum;Agromyza;Caloptilia elongella;ground flora;Phytomyza cirsii;Carex sylvatica;Hypericum montanum;Fenusella nana;Lysimachia nemorum;Phyllonorycter sp.;Ulex europaeus;Chamerion angustifolium;Dryopteris filix-mas;Stigmella oxyacanthella;Carex sp.;Aulagromyza heringii;Phytomyza vitalbae;Fagus sylvatica;Galium saxatile;Deschampsia cespitosa;Epilobium parviflorum;Veronica montana;Ectoedemia quinquella;Rosa canina;Liriomyza bryoniae;Oxalis acetosella;Cardamine impatiens;Juncus sp.;Chromatomyia 'atricornis';Hyacinthoides non-scripta;Aulagromyza tridentata;Fenusa dohrnii;Lotus corniculatus;Cameraria ohridella;Scolioneura vicina;Hypericum pulchrum;Phyllonorycter coryli;Conium maculatum;Stellaria graminea;Emmetia marginea;Deschampsia flexuosa;Juncus conglomeratus;Agromyza idaeiana;Potentilla erecta;Ectoedemia atricollis;Rubus idaeus;Stigmella sakhalinella;Fragaria vesca;herbaceous layer;Bellis perennis;Ligustrum vulgare;Acidia cognata;Eriocrania salopiella;Anemone nemorosa;Rumex obtusifolius;Salix sp.;Polystichum aculeatum;Galium aparine;Cardamine hirsuta;Polystichum setiferum;Cardamine pratensis;Aulagromyza hendeliana;Metallus albipes;Trifolium repens;Phyllonorycter nicellii;Ilex aquifolium;Acer pseudoplatanus;Liriomyza strigata;Stigmella regiella;Poa trivialis;Epilobium montanum;Caloptilia syringella;Liriomyza eupatorii;Cirsium palustre;Psychoides verhuella;Veronica chamaedrys;Senecio jacobaea;Coptotriche marginea;Heterarthrus microcephalus;Aulagromyza cornigera;species richness;Juncus bufonius;Vicia cracca;Agrostis capillaris;Cerodontha pygmaea;Scrophularia umbrosa;Ectoedemia septembrella;Dactylis glomerata;Parornix betulae;Verbascum nigrum;Phyllonorycter anderidae;Mercurialis perennis;Lotus pedunculatus;Petasites hybridus;Ectoedemia albifasciella;Cirsium vulgare;Pseudotsuga menziesii;Rumex sp.;Lamiastrum galeobdolon;Vicia sativa;Caloptilia sp.;Orchestes alni;Agrostis sp.;Ranunculus repens;Betula pendula;Incurvaria pectinea;Stigmella roborella;Stigmella malella;Amauromyza flavifrons;Carduus crispus;Alnus glutinosa;Liriomyza eupatoriana;Parornix fagivora;Phyllonorycter tristrigella;Apteropeda orbiculata;Phytomyza fallaciosa;Vicia sp.;Galium palustre;Phytoliriomyza hilarella;Stigmella tityrella;Epilobium roseum;Ulmus glabra;Holcus mollis;Agromyza anthracina;Silene latifolia;Liriomyza amoena;Mentha sp.;Plantago lanceolata;Dryopteris affinis;Luzula pilosa;Mompha terminella;Ranunculus ficaria;Stigmella ruficapitella;Pinus sylvestris;Galium sp.;Galium album;Profenusa pygmaea;Dryopteris dilatata;Taxus baccata;Corylus avellana;Lapsana communis;Fenusa pumila;Senecio vulgaris;Stigmella continuella;Stigmella microtheriella;Amauromyza labiatarum;Eriocrania sp.;Agrostis stolonifera;Salix aurita;Hypericum hirsutum;Scrophularia nodosa;Stigmella alnetella;stigmella glutinosae;Epipactis helleborine;Blechnum spicant;Epilobium tetragonum
DOI:
doi:10.5061/dryad.q20jf
摘要:
, not just plants which have been the traditional focus of restoration ecology. Here we compare the effects on ground flora and leaf-miners, of two restoration
Data from: Constitutive and herbivore-induced plant defenses regulate herbivore population growth
负责人:
Kersch-Becker, Monica
关键词:
constitutive defenses induced defenses herbivory jasmonate-salicylate antagonism jasmonic acid phytohormones plant resistance population dynamics
DOI:
doi:10.5061/dryad.4nr0843
摘要:
initial population density and herbivore load. We manipulated jasmonate defenses by using genetically modified lines of tomato plants (Solanum
Data from: Biodiversity assessment among two Nebraska prairies: a comparison between traditional and phylogenetic diversity indices
负责人:
关键词:
Helianthus petiolaris;Heliopsis helianthoides var. occidentalis;Nepeta cataria;Silphium integrifolum var. laeve;Helianthus tuberosus;Carduus nutans;Lactuca ludoviciana;Solanum rostratum;Achillea millefolium;Erigeron strigosus;Antennaria negleta;Campanula rotundifolia;Salvia nemorosa;Cirsium undulatum;Monarda fistulosa var. mollis;Community Ecology;Antennaria howellii subsp. neodioica;Ratibida columnifera;Erigeron bellidiastrum;Grindelia squarrosa var. squarrosa;Conium maculatum;Heterotheca stenophylla var. stenophylla;Cirsium canescens;Solidago missouriensis;conservation;Vernonia baldwinii;Silene antirrhina;Penstemon angustifolius;Liatris glabrata;Erigeron philadelphicus;Lygodesmia juncea;Tragopogon dubius;Zizia aurea;Ipomoea leptophylla;Penstemon gracilis;Rudbeckia hirta var. pulcherrima;Androsace occidentalis;Galium aparine;Thelesperma filifolium;Symphoricarpos occidentalis;Convolvulus arvensis;Verbena hastata;Grasslands;Impatiens capensis;Verbascum thapsus;Veronica americana;phylogenetic diversity;Asclepias verticillata;Evolvulus nuttallianus;Solanum carolinense;asterids;Heterotheca villosa;Echinacea angustifolia;Solanum triflorum;Silene vulgaris;Plantago patagonica;Next-generation sequencing;Teucrium canadense;Comandra umbellata;Xanthisma spinulosum;Cicuta maculata;Helianthus annuus;Hymenopappus tenuifolius;Gutierrezia sarothrae;Asclepias syriaca;Solidago gigantea;Senecio integerrimus;Ellisia nyctelea;Physalis virginiana;Helianthus pauciflorus subsp. subrhomboideus;Physalis heterophylla
DOI:
doi:10.5061/dryad.qj177
摘要:
d massively parallel sequencing to generate over 65,000 DNA characters from three cellular compartments for over 60 species in the asterid clade of flowering plants. We estimated
Data from: Mapping of two suppressors of OVATE (sov) loci in tomato
负责人:
关键词:
Solanum lycopersicum
DOI:
doi:10.5061/dryad.st020
摘要:
Tomato fruit shape varies significantly in the cultivated germplasm. To a large extent, this variation can be explained by four genes including OVATE
Data from: Landscape genomics of Colorado potato beetle provides evidence of polygenic adaptation to insecticides
负责人:
关键词:
local adaptation;Leptinotarsa decemlineata;Solanum tuberosum;genome scan;pest evolution;Landscape Genetics
DOI:
doi:10.5061/dryad.rv77v
摘要:
a broader sample of pest populations and genomes. Here we generate evidence relevant to these questions by applying a landscape genomics framework
Data from: Testing for reproductive interference in the population dynamics of two congeneric species of herbivorous mites
负责人:
关键词:
interspecific competition;Tetranychus evansi;Solanum lycopersicum;reproductive isolation;Reproductive interference;Holocene;Tetranychu urticae
DOI:
doi:10.5061/dryad.2n85d
摘要:
and their population dynamics when they competed on the same plants. They are both pests of tomato, but differ in the host plant defences that they suppress
Data from: Vegetation trends over eleven years on mountain summits in NW Argentina
负责人:
关键词:
Brayopsis monimocalyx;sisyrinchium hypsophilum;Oriastrum revolutum;Astragalus flavocreatus;Gamochaeta erythractis;Lepidium meyenii;Montiopsis modesta;Sisyrinchium junceum;Astragalus bustillosii;Lachemilla pinnata;community turnover.;Arenaria bisulca;Azorella compacta;Anthropcene;Draba burkartiana;Gnaphalium badium;Phacelia secunda var. Secunda;Gomphrena meyeniana;Parodiodoxa chionophila;Descurainia myriophylla;Draba gilliesii;Phacelia nana;Hypochaeris eremophila;Parastrephia lucida;Bowlesia tropaeolifolia;Hysterionica pulchella;Trichocline reptans;Menonvillea virens;Caiophora nivalis;Deyeuxia sp;Oenothera nana;Physaria mendocina;Viola tucumanensis;Nototriche caesia;Calceolaria glacialis;Oriastrum stuebelii;Koeleria kurtzii;elevation gradient;Arenaria serpens;Astragalus peruvianus;Hieracium mandonii;Festuca sp;Andes;Nototriche anthemidifolia;Oxalis sp. 1;Aschersoniodoxa cachensis;Cystopteris fragilis;Nassella rupestris;Cheilanthes pruinata;Draba macleanii;Tetraglochin cristatum;Senecio adenophyllus;Adesmia crassicaulis;Plagiobothrys congestus;plant diversity;Tarasa tenella;Adesmia schickendantzii;Tetraglochin inerme;Cardionema burkartii;Calandrinia acaulis;Plantago sericea var. Serícea;Anatherostipa mucronata;Valeriana pycnantha;Luciliocline burkartii;climate change;Mastigostyla mirabilis;Galium plumosum;GLORIA initiative;Arenaria rivularis;Pycnophyllum convexum;Conyza desertícola;Perezia ciliosa;Solanum acaule;carex marítima;Descurainia depressa;Cerastium tucumanense;Junellia digitata;Senecio nutans;Werneria cochlearis;Perezia multiflora;Mniodes santanica;Mniodes schultzii;Silene mandonii;Geranium sessiliflorum;Calycera pulvinata;Oriastrum pulvinatum;Poa sp;Werneria pygmaea;Mulinum axilliflorum;Arenaria pycnophylloides;Jarava leptostachya;Woodsia montevidensis;Viola rodriguezii;Mancoa hispida;Muhlenbergia peruviana;Senecio asplenifolius;Paronychia hieronymi;Hypoxis decumbens;Maihueniopsis bolivianum;Astragalus cryptobotrys
DOI:
doi:10.5061/dryad.3gk6pr4
摘要:
As global climate change leads to warmer and dryer conditions in the central Andes, alpine plant communities are forced to upward displa

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