about
Contrast in edge vegetation structure modifies the predation risk of natural ground nests in an agricultural landscape.Archiving Primary Data: Solutions for Long-Term Studies.Rainfall during parental care reduces reproductive and survival components of fitness in a passerine bird.Habitat-specific population growth of a farmland bird.Agricultural intensification and biodiversity partitioning in European landscapes comparing plants, carabids, and birds.Effect of geolocators on migration and subsequent breeding performance of a long-distance passerine migrantEffects of a coordinated farmland bird conservation project on farmers' intentions to implement nature conservation practices - Evidence from the Swedish Volunteer & Farmer Alliance.Disentangling the effects of date, individual, and territory quality on the seasonal decline in fitness.Exploiting opportunistic observations to estimate changes in seasonal site use: An example with wetland birds.Different nest predator faunas and nest predation risk on ground and shrub nests at forest ecotones: an experiment and a review.Negative and matrix-dependent effects of dispersal corridors in an experimental metacommunity.Prospectors combine social and environmental information to improve habitat selection and breeding success in the subsequent year.Post-breeding information gathering and breeding territory shifts in northern wheatears.Age and reproduction in birds - hypotheses and tests."Terminal investment" and a sexual conflict in the Collared Flycatcher (Ficedula albicollis).Nonideal breeding habitat selection: a mismatch between preference and fitness.Solutions for Archiving Data in Long-Term Studies: A Reply to Whitlock et al.Sex-biased dispersal: a result of a sex difference in breeding site availability.Decomposing the seasonal fitness decline.Marked reduction in demographic rates and reduced fitness advantage for early breeding is not linked to reduced thermal matching of breeding time.Song similarity predicts hybridization in flycatchers.Habitat-specific differences in adult survival rates and its links to parental workload and on-nest predation.Natal dispersers pay a lifetime cost to increased reproductive effort in a wild bird population.Patterns of mortality for each life-history stage in a population of the endangered New Zealand stitchbird.Age-specific variation in reproduction is largely explained by the timing of territory establishment in the New Zealand stitchbird Notiomystis cincta.Gathering public information for habitat selection: prospecting birds cue on parental activity.Adaptive plasticity in mate preference linked to differences in reproductive effort.Villages and their old farmsteads are hot spots of bird diversity in agricultural landscapesHow Agricultural Intensification Affects Biodiversity and Ecosystem ServicesErratum to “Persistent negative effects of pesticides on biodiversity and biological control potential on European farmland” [Basic Appl. Ecol. 11 (2010) 97–105]Mixed effects of organic farming and landscape complexity on farmland biodiversity and biological control potential across EuropeLandscape composition influences farm management effects on farmland birds in winter: A pan-European approachPersistent negative effects of pesticides on biodiversity and biological control potential on European farmlandLandscape context and farm uptake limit effects of bird conservation in the Swedish Volunteer & Farmer AllianceLinking occurrence and changes in local abundance of farmland bird species to landscape composition and land-use changesAre farmsteads over-looked biodiversity hotspots in intensive agricultural ecosystems?Bird diversity relates to agri-environment schemes at local and landscape level in intensive farmlandGrass buffer strips benefit invertebrate and breeding skylark numbers in a heterogeneous agricultural landscapeDo skylarks prefer autumn sown cereals? Effects of agricultural land use, region and time in the breeding season on densityChanges in local species richness of farmland birds in relation to land-use changes and landscape structure
P50
Q30470288-EB29085C-5B61-4595-93E1-B8D030178439Q30537228-C96223D1-E807-471A-940D-89A8D4E1FA97Q30894789-704676F6-8BFA-4295-A0F1-2FC9A1371011Q33361602-4D518A32-18B6-444A-B061-D61D1FD775A9Q33989218-1AD1FA1C-DB15-4F30-A6A0-48AABE3016C3Q35064140-2647A0EF-AC9E-4464-A7A8-BEE60D6B54E9Q36198608-8B9F372A-F1A9-4EBA-82A8-021BB24D3290Q36372822-55985295-E3F7-48E0-93A3-67C57C09987AQ38624799-A684F5CD-7B03-4C14-9DEB-72503FB0E869Q39184495-4E5068D0-1A04-47A1-A91D-F5ED375A30D0Q39432929-BB0A1547-1153-4513-815D-0079A0CEF34AQ39750606-F600E7D4-4C11-44CF-8C89-357F0AEFCDAAQ40151607-71772B0B-AB30-463B-A7D4-8D7F4D7FD7BAQ40972565-CFC3D0D2-8F70-4F3D-A8B0-009B44A6E965Q41103280-F8AAD3DF-4030-44E0-80F0-6750355ECE72Q42620567-128E3839-8077-44DE-B85D-2E3C5E6745A9Q42671948-67A7809F-E0DC-4F55-8231-42E9CF4D817FQ45228386-BF99C216-BE80-4455-AF29-BB973945A958Q46104526-13DBE938-6292-4E89-AF9D-EAC5D221D7E0Q47152999-B2365538-5D99-4BB7-99BC-89748AE4931EQ50773330-5E3A2675-8D52-4A67-BC52-F96D18EB8800Q51135412-A752A2F5-E33F-44C6-9337-E0FE1BDF4F29Q51221482-0182F1EB-C13C-479A-B17B-45780CEB35A8Q51649321-290B332B-84F6-4C35-A3DD-381AFD45F886Q51710343-BDB0882C-4C81-4E87-80EC-C2F3B3FB3CBAQ52100513-3EDA0BE3-6A63-43DE-986E-C0215E472810Q54132253-262BF0B2-71D0-40D8-8EA6-9120F49BD48AQ56938425-E3DD9B67-938E-4484-A53C-2A799045FC80Q57025690-3DE44C6D-F1A1-4BED-8BF7-FECE91AC2951Q57025846-1DBB2815-A149-47E1-9B12-C344A621DCCCQ57025857-A9CC82EA-389A-4B33-9389-F4BEAA7BCE60Q57025893-B6452C67-5B4C-4412-8DC0-AADA0CC3482DQ57025907-7EDD3DF6-16B0-457F-8EF8-E9E7C898BECCQ57062315-38E34444-0AC7-42EB-B28D-6E8A5CB79FD2Q57062319-F351B1EB-5D5F-44CB-9CBE-E32ACA1DDDFCQ57062322-995FDE39-29FD-47F8-84CD-AC16B390F8BEQ57062327-C7D1F4F4-8441-4019-BEA4-2F22950880B0Q57062341-F50730B9-7778-4951-91A3-1C63090AF765Q57062346-969A0A37-DD60-41E5-9986-626507A99F5EQ57062360-AA0FB25C-4904-4BE9-98D6-F203A739F8D2
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Tomas Pärt
@ast
Tomas Pärt
@en
Tomas Pärt
@es
Tomas Pärt
@nl
Tomas Pärt
@sl
type
label
Tomas Pärt
@ast
Tomas Pärt
@en
Tomas Pärt
@es
Tomas Pärt
@nl
Tomas Pärt
@sl
prefLabel
Tomas Pärt
@ast
Tomas Pärt
@en
Tomas Pärt
@es
Tomas Pärt
@nl
Tomas Pärt
@sl
P106
P1153
7003423871
P21
P31
P496
0000-0001-7388-6672