dataService

您的位置: 首页 > 数据服务 > 数据列表页

筛选

共检索到53条 ,权限内显示50条;

Data from: Passive restoration of sub-tropical grassland after abandonment of cultivation
负责人:
关键词:
Succession;Dispersal;Chronosequence;old fields;grassland;restoration;Dichanthium sericeum
DOI:
doi:10.5061/dryad.86q4k
摘要:
ong a chronosequence of abandoned cultivation (fallow) paddocks. Plant communities in fallow paddocks were compared with nearby remnant grassland. On average
Data from: Bee communities along a prairie restoration chronosequence: similar abundance and diversity, distinct composition
负责人:
关键词:
beta diversity;Ecological restoration;Apoidea;Community composition;native bees;tallgrass prairie
DOI:
doi:10.5061/dryad.34n83
摘要:
community assembly of bees across a chronosequence of restored eastern tallgrass prairies and compared patterns to those in control and reference habitats (old fields
Data from: Do secondary forests act as refuges for old growth forest animals? Recovery of ant diversity in the Atlantic forest of Brazil
负责人:
关键词:
Soil fauna;Formicidae;Nested subsets;Insecta;tropical forests;Faunal recovery;Hymenoptera;secondary forests;resilience
DOI:
doi:10.5061/dryad.3h12j8d3
摘要:
vs. hypogeic ant assemblages. For this purpose we established 27 sites that encompassed a chronosequence from pastures to old growth forests on two contrasting
Data from: Living near the edge: being close to mature forest increases the rate of succession in beetle communities
负责人:
关键词:
Sogdini SEAGO Gen A;Macroplectus CHANDLER Type 1;within Aleocharinae TFIC sp 066;Acallistus longus;Percosoma carenoides;Geomela TFIC sp 01;Sogdini ANIC gen B;Rhabdotus reflexus;Palimbolus victoriae;Falagria TFIC sp 01;Pentagonica vittipenis;Zyras TFIC sp 01;Zyras TFIC sp 05;within Pselaphinae TFIC sp 06;Zyras TFIC sp 04;within Pselaphinae TFIC sp 05;Zyras TFIC sp 03;Zyras TFIC sp 02;Ciconissus gibbicollis;Poropterus alboscutellaris;Arsipoda bifrons;Microsilpha TFIC sp 03;Quedius subopaceous;Clambus bornemisszai;Quedius baldiensis;Exithius TFIC sp 01;Aridius nodifer;Colon TFIC sp 17;Arsipoda TFIC sp 04;Dryophthorus ECZ sp 02;Nargomorphus globulus;Sagola CHANDLER Tasmania 1;Myrmicholeva ligulata;Hobartius eucalypti;Austronemadus TFIC sp 03;Lissotes cancroides;Rybaxis parvidens;Telura vitticollis;Anotylus TFIC sp 03;Xynotropis TFIC sp 01;Anotylus TFIC sp 02;within Aleocharinae TFIC sp 161;within Aleocharinae TFIC sp 162;Phyllochlaenia TFIC sp 01;Homethes elegans;Sloaneana tasmaniae;Exithius capucinus;Anotylus TFIC sp 07;Quedius inaequalipennis;Cryptamorpha victoriae;Anotylus TFIC sp 05;Anotylus TFIC sp 04;Paropsisterna bimaculata;Quedius stenocephalus;Decilaus nigronotatus;within Pselaphinae TFIC sp 12;Philothermus tasmanicus;PselaphineTFIC sp 06;Rentoniinae TFIC sp 01;Eboo elongata;Seriocoderus TFIC sp 05;Osirius TFIC sp 01;Mecyclothorax ambiguus;Agonochula curtula;Cyphon TFIC sp 05;Quedius TFIC sp 07;within Ptillidae TFIC sp 21;Zeadolopus TFIC sp 01;Zeadolopus TFIC sp 02;within Ptillidae TFIC sp 16;Sepedophilus TFIC sp 07;Sepedophilus TFIC sp 01;Quedius TFIC sp 03;Tasmanityrus newtoni;Quedius TFIC sp 04;within Aleocharinae TFIC sp 156;within Cryptorhynchinae TFIC sp 20;within Aleocharinae TFIC sp 032;Hymaea succinfera;Spanioda carissima;Chylnus ater;Scopodes sigillatus;Nagomorphus globulus;Diemenoma commoda;within Ptillidae TFIC sp 01;Decilaus bryophilus;Cryptamorpha TFIC sp 01;Chichester CHANDLER Tasmania 1;within Ptillidae TFIC sp 07;within Ptillidae TFIC sp 06;within Pselaphine TFIC sp 20;Conoderus australasiae;Beetle abundance;Adelium abbreviatum;within Aleocharinae TFIC sp 004;Aulaxus CHANDLER Type 1;Catoposchema tasmaniae;Thalycrodes pulchrum;Heteronyx tasmanicus;Rybaxis variabilis;Brycopia coeloides;within Aleocharinae TFIC sp 127;within Aleocharinae TFIC sp 007;within Cryptorhynchinae TFIC sp 07;Austrorhysus TFIC sp 01;within Aleocharinae TFIC sp 014;within Aleocharinae TFIC sp 015;within Aleocharinae TFIC sp 132;Notonomus politulus;Paraplectus CHANDLER Tasmania 1;Microchaetes scoparius;Baeocera TFIC sp 02;Baeocera TFIC sp 01;Spaerothorax tasmani;Tyrogetus TFIC sp 01;Talayra TFIC sp 01;Leptopius TFIC sp 01;Ascara sublineata;Prostomus murinus;litter depth;Mandalotus blackburni;Quedius TFIC sp 10;Stichonotus piceus;Hyperomma bryophilum;within Aleocharinae TFIC sp 100;Pterocyrtus striatulus;Decilaus TFIC sp 22;Microchaetes hystricosus;Euconnus TFIC sp 07;Atheta TFIC sp 02;Lissotes subcaeruleus;Atheta TFIC sp 03;Atheta TFIC sp 04;Ischnosoma TFIC sp 01;Arsipoda variegata;Atheta TFIC sp 01;Horaemorphus TFIC sp 12;Ryzobius nr alphabetica;Horaemorphus TFIC sp 10;Hyperomma TFIC sp 05;within Eucnemidae TFIC sp 02;Enhypnon punctatus;Microsilpha ANIC Thayer sp 15;Philonthus TFIC sp 01;Heteronyx pubescens;Philonthus TFIC sp 06;Enhypnon tuberculatus;Decilaus lateralis;Thalycrodes cylindricum;Blepharhymenus sp nr apicornis;Anabaxis CHANDLER type 1;Mandalotus muscivorus;Nargiotes gordoni (ID uncertain);Soil variables;with Aleocharinae TFIC sp 163;Sagola TFIC sp 01;Sagola TFIC sp 02;Tetrabothrus claviger;Orchesia alphabetica;vegetation cover and diversity;Dapleuros tasmaniensis;Quedius duplopunctatus;Spaerothorax pubientris;Pachyporopterus satyrus;Leaf Area Index;Dinichus terreus;Aspidiphorus humeralis;Chameloscyphon huonensis;Orchesia TFIC sp 19;Heterothops TFIC sp 03;Lestignathus cursor;Colenisia TFIC sp 01;Enicmus priopterus;Trechistus terricola;Decilaus striatus;Orchesia TFIC sp 08;Orchesia TFIC sp 07;Choleva TFIC sp 02;Choleva TFIC sp 01;Lestignathus foveatus;Holopsis TFIC sp 01;Quediomimus TFIC sp 03;Orchesia TFIC sp 06;Orchesia TFIC sp 01;Roptoperus tasmaniensis;Heteromastix nigripes;Mandalotus arciferus;Pselaphaulax CHANDLER Tasmania 1;Decilaus TFIC sp 03;Decilaus TFIC sp 04;Decilaus TFIC sp 01;Decilaus TFIC sp 02;Phyllochlaenia villosa;Sagola rugicornis;Eublackburniella TFIC sp 01;Trechinae TFIC sp 08;Euplectops TFIC sp 01;Falagria TFIC sp 05;distance from mature forest;litter cover;Pseudoceneus solicitus;within Oxypodiini TFIC sp 06;within Oxypodiini TFIC sp 05;within Oxypodiini TFIC sp 04;within Oxypodiini TFIC sp 03;Exeiratus TFIC sp 07;Notocercyon TFIC sp 01;Pedilophorus griffithi;Exeiratus TFIC sp 04;Euplectops CHANDLER Tasmania 1;Coripera deplanata;Orchesia TFIC sp 23
DOI:
doi:10.5061/dryad.10c30
摘要:
ss boundaries between mature and secondary forest at 15 sites, sampling a chronosequence of three forest age classes (5-10, 23-29 and 42-46 years since
Data from: Impact of a hurricane on the herpetofaunal assemblages of a successional chronosequence in a tropical dry forest
负责人:
关键词:
successional stages;community structure;Reptiles;human-dominated landscapes;Amphibians
DOI:
doi:10.5061/dryad.127g7
摘要:
). Secondary forests at different stages of succession may attenuate the negative effects of an intense, short?duration, and low?frequency natural disturbance such
Data from: Evolutionary neutrality of mtDNA introgression: evidence from complete mitogenome analysis in roe deer
负责人:
关键词:
roe deer;mitogenomics;Even-toed ungulates;Artiodactyla;hybridization;present;Capreolus pygargus;introgression;natural selection;Capreolus capreolus
DOI:
doi:10.5061/dryad.tm8k3
摘要:
. The average sequence divergence of species-specific lineages was estimated at 2.8% and varied across gene classes. Only 21 of 315 fixed differences identified
Woodland Restoration Plot Network: Bird Survey Data (Winter), Western Sydney Parklands (Western Sydney Regional Park), Australia, 2014;;Woodland Restoration Plot Network: Winter Bird Survey Data, 2014
负责人:
关键词:
DOI:
doi:10.25911/5c3c04e1e1c33
摘要:
with various histories of past disturbance and a chronosequence of restoration plantings with dates of origin from 1992 to 2002.The aims of the study design
Data from: Tissue-specific carbon concentration, carbon stock, and distribution in Cunninghamia lanceolata (Lamb.) Hookplantations at var
负责人:
关键词:
Cunninghamia lanceolata;fine root;tissue-specific carbon concentrations;soil organic carbon;Chinese fir;Litterfall;monoculture plantation
DOI:
doi:10.5061/dryad.61pm78v
摘要:
e quantified in a chronosequence of Chinese fir (Cunninghamia lanceolata (Lamb.) Hook) monoculture plantation stands at young (10), mature (22), and overmature
Data from: High parasite infection level in non-native invasive species: it is just a matter of time
负责人:
关键词:
Neovison vison;Parasites;Enemy Release Hypothesis;American mink
DOI:
doi:10.5061/dryad.2vb30
摘要:
abundance in American mink at six sites along a chronosequence of mink invasion history. Nematode and trematode abundance increased with time since mink
Data from: The phylogenetics of succession can guide restoration: an example from abandoned mine sites in the subarctic
负责人:
关键词:
species pool;species richness;null models;phylogenetic diversity;Chronosequence;phylogenetic beta-diversity;community assembly;net-relatedness index
DOI:
doi:10.5061/dryad.qt30h
摘要:
community restoration strategies following major disturbance. 2. Our study examined phylogenetic patterns of succession based on a chronosequence of three abandoned

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