human | Q5 |
P6178 | Dimensions author ID | 012130165055.16 |
P496 | ORCID iD | 0000-0002-2232-428X |
P3829 | Publons author ID | 2089072 |
P1053 | ResearcherID | K-3727-2017 |
P1153 | Scopus author ID | 55362107400 |
P69 | educated at | Autonomous University of Madrid | Q788091 |
P108 | employer | University of Pretoria | Q604444 |
National Museum of Natural History | Q1966699 | ||
King Juan Carlos University | Q2000629 | ||
P734 | family name | Pertierra | Q37131541 |
Pertierra | Q37131541 | ||
Pertierra | Q37131541 | ||
P735 | given name | Luis | Q2598693 |
Luis | Q2598693 | ||
P6104 | maintained by WikiProject | WikiProject Invasion Biology | Q56241615 |
P106 | occupation | researcher | Q1650915 |
P21 | sex or gender | male | Q6581097 |
Q56433113 | A recolonization record of the invasive Poa annua in Paradise Bay, Antarctic Peninsula: modeling of the potential spreading risk |
Q59192495 | An innovative vegetation survey design in Mediterranean cliffs shows evidence of higher tolerance of specialized rock plants to rock climbing activity |
Q59192514 | Analysis of published scientific research from Deception Island, South Shetland Islands |
Q35998314 | Assessing environmental conditions of Antarctic footpaths to support management decisions |
Q56376439 | Assessing the invasive risk of two non-native Agrostis species on sub-Antarctic Macquarie Island |
Q56434737 | Biological invasions in terrestrial Antarctica: what is the current status and can we respond? |
Q113036842 | Can classic biological invasion hypotheses be applied to reported cases of non-native terrestrial species in the Maritime Antarctic? |
Q110809126 | Combining correlative and mechanistic niche models with human activity data to elucidate the invasive potential of a sub‐Antarctic insect |
Q59192501 | Conflicting science requirements impact on rare moss conservation measures |
Q42318592 | Correction: High Resolution Spatial Mapping of Human Footprint across Antarctica and Its Implications for the Strategic Conservation of Avifauna |
Q110027838 | Cryptic speciation in gentoo penguins is driven by geographic isolation and regional marine conditions: Unforeseen vulnerabilities to global change |
Q110626318 | Ensemble forecasting of invasion risk for four alien springtail (Collembola) species in Antarctica |
Q59192527 | Environmental management of a scientific field camp in Maritime Antarctica: reconciling research impacts with conservation goals in remote ice-free areas |
Q56336306 | Eradication of the non-native Poa pratensis colony at Cierva Point, Antarctica: A case study of international cooperation and practical management in an area under multi-party governance |
Q54724401 | Erratum: MERRAclim, a high-resolution global dataset of remotely sensed bioclimatic variables for ecological modelling. |
Q56384356 | Evaluation of non-native species policy development and implementation within the Antarctic Treaty area |
Q98576127 | Genome-wide analyses reveal drivers of penguin diversification |
Q36224368 | Global thermal niche models of two European grasses show high invasion risks in Antarctica |
Q112827312 | Half a century of thermal tolerance studies in springtails (Collembola): A review of metrics, spatial and temporal trends |
Q36248759 | High Resolution Spatial Mapping of Human Footprint across Antarctica and Its Implications for the Strategic Conservation of Avifauna |
Q59192522 | Historical Developments, Drivers of Change and Future Scenarios for Human Activities on Deception Island |
Q60430123 | Human-mediated dispersal of terrestrial species between Antarctic biogeographic regions: A preliminary risk assessment |
Q38717525 | MERRAclim, a high-resolution global dataset of remotely sensed bioclimatic variables for ecological modelling. |
Q117306766 | Meta‐analysis of Antarctic phylogeography reveals strong sampling bias and critical knowledge gaps |
Q59192537 | New national and regional bryophyte records, 32 |
Q111798979 | Opportunities for studying propagule pressure using gene flow reveal its role in accelerating biological invasions |
Q59192510 | Perceptions of the Antarctic wilderness: views from emerging adults in Spain and the United States |
Q56480593 | Poa pratensis L., current status of the longest-established non-native vascular plant in the Antarctic |
Q57251250 | Pollution and physiological variability in gentoo penguins at two rookeries with different levels of human visitation |
Q111159778 | Positive interactions among native and invasive vascular plants in Antarctica: assessing the “nurse effect” at different spatial scales |
Q117220228 | Shifting Perspectives in Polar Research: Global Lessons on the Barriers and Drivers for Securing Academic Careers in Natural Sciences |
Q38622230 | Soil features in rookeries of Antarctic penguins reveal sea to land biotransport of chemical pollutants |
Q112800861 | Spatial partitioning of perching on plants by tropical dung beetles depends on body size and leaf characteristics: a sit‐and‐wait strategy for food location |
Q59192540 | The Impact of Universities on the Climate Change Process |
Q110625696 | The importance of long-term surveys on species introductions in Maritime Antarctica: first detection of Ceratophysella succinea (Collembola: Hypogastruridae) |
Q58052764 | Towards the integration of sustainability in Higher Eeducation Institutions: A review of drivers of and barriers to organisational change and their comparison against those found of companies |
Q59192539 | Trampling on maritime Antarctica: can soil ecosystems be effectively protected through existing codes of conduct? |
Q59192526 | Trampling the Antarctic: Consequences of Pedestrian Traffic on Antarctic Soils |
Q110862306 | Warmer and less variable temperatures favour an accelerated plant phenology of two invasive weeds across sub-Antarctic Macquarie Island |