Plants, Fire and Landscape at the Prehistoric Pile-Dwelling Village of Pal ù di Livenza (PaluON1), UNESCO Site in the Italian Alps

: This paper presents palynological data obtained from a trench excavated at the Neolithic pile-dwelling archaeological site of Pal ù di Livenza (northeastern Italy). The site is in a wetland located in a tectonic basin at the foot of the Cansiglio plateau, crossed by the Livenza river. Environmental conditions have made this wetland a suitable area for settlements since prehistoric times. Thanks to the peaty sediments that characterise the area, archaeological materials and botanical remains have been exceptionally well preserved. Their study has shed light on a Neolithic pile-dwelling settlement that developed in various phases between c. 6350 and 5600 cal BP (c. 4400 and 3650 BC), and has also allowed for a detailed environmental reconstruction of the surrounding environment. A vertical sequence of 20 samples was analysed to study pollen, non-pollen palynomorphs and microcharcoals. An age-depth model was performed based on three radiocarbon dates. The palynological analysis provided insight into the response of vegetation to environmental changes caused by both climatic ﬂuctuations and human pressure. In this sense, it was possible to highlight differences in vegetation cover, some ﬁres, the use of woody resources, the spread of cereal ﬁelds, as well as the presence of other cultivated plants and plant processing by the people within the village.


Introduction
Information on prehistoric settlements that developed in the wetlands between the high plain and the foothills extending into northeastern Italy is currently scarce. One of the places that has provided the richest and most intriguing evidence of wetland sites is Palù di Livenza. This includes a well-preserved pile-dwelling site that is very interesting for understanding life during the Neolithic period. Its location in the Pordenone foothills is significant due to its geographical proximity to Austria and Slovenia, where important pile-dwelling settlements of prehistoric times are known. Thanks to the numerous archaeological discoveries, Palù di Livenza was inscribed by the UNESCO World Heritage in 2011, more specifically within the transnational series of Prehistoric pile-dwelling sites in the Alps (code site IT-FV-01). In this site, the high environmental value and the hydrogeological peculiarities are closely intertwined with the archaeological heritage that testifies to the life of the first European agricultural communities.
Following registration to the UNESCO list, a plan of knowledge, protection and enhancement of the pile-dwelling site was launched under the coordination of the 'Soprintendenza Archeologia, Belle Arti e Paesaggio' of Friuli Venezia Giulia, the region where the site is located. The richness of the archaeological deposit has revealed the presence of various overlapping Neolithic settlements on stilts that followed each other between the last centuries of the seventh and the middle of the sixth millennium BP (c. 4400 and 3650 BC). Different investigations have also confirmed the excellent state of the preservation of the organic remains, such as plant macroremains (wood, seeds and fruits). This is of fundamental importance for the understanding of agricultural practices and methods of exploiting plant resources in the life period of the pile-dwelling villages in the wetlands [1,2]. Such environmental contexts are known to be important archives that record environmental transformations over time (e.g., [3][4][5][6]). Apart from the climatic oscillations, these changes are often strongly influenced by human presence or impact on the surrounding environment, giving a unique insight into the human-environment relationship and the adaptive strategies pursued by communities to live in this peculiar environment [7][8][9][10][11][12].
By combining the archaeological and naturalistic interest of the area, the site of Palù di Livenza turned out to be a privileged place to carry out a palynological study aimed at environmental reconstruction, due to both the multidisciplinary approach and the exceptional preservation of the context. We present the detailed study of the on-site trench PaluON1, aiming to reconstruct the local flora and vegetation of the past and the changes undergone in Palù di Livenza, and to discriminate human influence in these changes [13,14]. This study integrates previous palaeoecological analyses obtained from a pollen core in the proximity of Sector 2 [15] and the palaeoeconomic and dietary information inferred from the archaeobotanical studies carried out on plant macroremains during the first site surveys [16][17][18].

General Settings
In northeastern Italy, the name Palù does not designate a swamp in the classical sense of the term (from the Italian word "palude", i.e., an area of land permanently saturated, or filled, with water), but indicates a humid agricultural landscape with a strong natural connotation. Palù means a place resulting from a long interaction between communities and the environment. The ecological feature of this type of environment is the great variety of interlinked habitats in limited spaces, where the marshy areas have been transformed into hay meadows with reclamation interventions since the High Middle Ages. Palù was the basis of a traditional agricultural economy based on the exploitation of different natural resources from three different environments in which water was the main component: swamp, stable meadows and humid forest [19,20]. In particular, the occupation and exploitation of the Palù di Livenza wetland began at the end of the Neolithic period, but unlike other places with similar environmental features, it was no longer permanently frequented until historical times.

Archaeological Context
Findings of wooden poles and archaeological materials at Palù di Livenza have been known since the 19th century. However, it was only in the mid-1960s that the impor- tance of the site was confirmed by several prehistoric artefacts that were found during the excavation of a drainage channel in the northern part of the basin [26][27][28]. Several investigations have been carried out in the last forty years and have led to the discovery of many archaeological materials, which revealed the exceptionality of the prehistoric site. Systematic investigations through field surveys, excavations and coring were focused along the drainage channel in Sector 1 and Sector 2 ( Figure 2). The findings revealed a Neolithic pile-dwelling settlement (Figure 2a). The archaeological excavations revealed wooden features on aerial platforms and land reclamation works, proving different phases of site occupation [29,30]. Therefore, as mentioned above, in 2011, Palù di Livenza was added to the UNESCO World Heritage List, being characterised by the excellent preservation of both archaeological materials and organic remains [31][32][33][34].

Archaeological Context
Findings of wooden poles and archaeological materials at Palù di Livenza have been known since the 19th century. However, it was only in the mid-1960s that the importance of the site was confirmed by several prehistoric artefacts that were found during the excavation of a drainage channel in the northern part of the basin [26][27][28]. Several investigations have been carried out in the last forty years and have led to the discovery of many archaeological materials, which revealed the exceptionality of the prehistoric site. Systematic investigations through field surveys, excavations and coring were focused along the drainage channel in Sector 1 and Sector 2 ( Figure 2). The findings revealed a Neolithic pile-dwelling settlement (Figure 2a). The archaeological excavations revealed wooden features on aerial platforms and land reclamation works, proving different phases of site occupation [29,30]. Therefore, as mentioned above, in 2011, Palù di Livenza was added to the UNESCO World Heritage List, being characterised by the excellent preservation of both archaeological materials and organic remains [31][32][33][34].  (Figure 2b). Although the excavation area was limited to 48 m 2 and corresponds to an almost negligible part of the real extension of the archaeological site, the investigations outlined a diachronic sequence in five structural Neolithic phases in which four different pile-dwelling features are interposed by abandonments of the area ( Figure  3). Hundreds of wooden elements were identified consisting of both horizontal beams and fixed vertical poles. The construction systems identified have similarities of a technical nature and use the same type of structure for their foundation: sleeper beams and plinths made up of semi-finished oak logs supported raised buildings, the function of which could be both that of houses and of ancillary dwellings to them, such as storehouses or granaries [35][36][37][38].
The materials suggest that the lower Neolithic structural phases 1-4 can be ascribed to the Square Mouthed Pottery culture (Cultura dei Vasi a Bocca Quadrata) in some of its  (Figure 2b). Although the excavation area was limited to 48 m 2 and corresponds to an almost negligible part of the real extension of the archaeological site, the investigations outlined a diachronic sequence in five structural Neolithic phases in which four different pile-dwelling features are interposed by abandonments of the area (Figure 3). Hundreds of wooden elements were identified consisting of both horizontal beams and fixed vertical poles. The construction systems identified have similarities of a technical nature and use the same type of structure for their foundation: sleeper beams and plinths made up of semi-finished oak logs supported raised buildings, the function of which could be both that of houses and of ancillary dwellings to them, such as storehouses or granaries [35][36][37][38].
The materials suggest that the lower Neolithic structural phases 1-4 can be ascribed to the Square Mouthed Pottery culture (Cultura dei Vasi a Bocca Quadrata) in some of its various aspects evolving in the second half of the seventh millennium BP, between 6350/6250 BP (corresponding to 4400/4300 and c. 4000 cal BC). The final phase 5 is attributed to the Late Neolithic Alpine Groups, which are datable between 5900 and 5600 BP (c. 3950 and 3650 cal BC) [35][36][37][38].
various aspects evolving in the second half of the seventh millennium BP, between 6350/6250 BP (corresponding to 4400/4300 and c. 4000 cal BC). The final phase 5 is attributed to the Late Neolithic Alpine Groups, which are datable between 5900 and 5600 BP (c. 3950 and 3650 cal BC) [35][36][37][38].

Chronology
The age-depth model was constructed using the "Bchron" package [39] performed with R, version 4.1.0 [40]. The age-depth model relies on three radiocarbon dates corresponding to three of the stratigraphical units of the trench studied, attributed to the Neolithic period: LTL16159A (SU 7; [36]), and DSH9888_CS (SU 11) and DSH9891_CS (SU 12) that are presented for the first time here. The date of 2020 AD was also considered in the model for the modern surface layer. Calibration was carried out using Oxcal 4.4 (online version, [41]) and the IntCal 20 calibration curve [42].

Pollen Sampling
Sampling was performed in Sector 3 (12,48244° E; 46,02219° N), SW corner of Section 4, during the archaeological field works in 2016. This sector does not cover all of the archaeological phases recognised in Sector 3 at the site of Palù di Livenza. The SW sequence of Sector 3 sampled for palynological analysis represents: (i) the pre-settlement phase (SU 23), (ii) the archaeological phases from 3 to 5 (SSUU 14, 13/12, 11, 7), (iii) the

Chronology
The age-depth model was constructed using the "Bchron" package [39] performed with R, version 4.1.0 [40]. The age-depth model relies on three radiocarbon dates corresponding to three of the stratigraphical units of the trench studied, attributed to the Neolithic period: LTL16159A (SU 7; [36]), and DSH9888_CS (SU 11) and DSH9891_CS (SU 12) that are presented for the first time here. The date of 2020 AD was also considered in the model for the modern surface layer. Calibration was carried out using Oxcal 4.4 (online version, [41]) and the IntCal 20 calibration curve [42].

Pollen Sampling
Sampling was performed in Sector 3 (12.48244 • E; 46.02219 • N), SW corner of Section 4, during the archaeological field works in 2016. This sector does not cover all of the archaeological phases recognised in Sector 3 at the site of Palù di Livenza. The SW sequence of Sector 3 sampled for palynological analysis represents: (i) the pre-settlement phase (SU 23), (ii) the archaeological phases from 3 to 5 (SSUU 14, 13/12, 11, 7), (iii) the final phase corresponding to the abandonment of the settlement (SSUU 6, 4, 3). For the palynological study, 20 samples were taken from the stratigraphic profile at about 5-cm intervals ( Figure 4; Table 1). final phase corresponding to the abandonment of the settlement (SSUU 6, 4, 3). For the palynological study, 20 samples were taken from the stratigraphic profile at about 5-cm intervals ( Figure 4; Table 1).

Pollen Treatment and Analyses
The treatment of the palynological samples was performed according to the method in use at the Laboratory of Palynology and Palaeobotany of Modena [43]. The method includes sieving about 2 g of sediment, treatment with HCl 10% and HF 40%, acetolysis and heavy liquid flotation with sodium metatungstate hydrate. Lycopodium spore tablets were added before the treatment to calculate the concentration (expressed in p/g). Pollen grains were identified at 1000× magnification on permanent slides, with the help of atlases and keys (e.g., [44][45][46][47]), and the reference pollen collection of the laboratory. On average, 300 pollen grains per sample were counted and identified at the lowest possible taxonomic level. Percentages were calculated on a Pollen Sum including both identified and unidentified pollen grains. Sums of selected pollen taxa and sums useful for environmental and land use reconstructions were calculated: Arboreal Plants and Non-Arboreal Plants (AP/NAP ratio); mixed oakwood with Carpinus betulus, Corylus avellana, Carpinus orientalis/Ostrya carpinifolia type, deciduous Quercus, Tilia, Ulmus; hygrophilous trees: Alnus, Populus, Salix; API-Anthropogenic Pollen Indicators [48]: Artemisia, Centaurea nigra type, Cichorieae, Trifolium type, Plantago, Urtica dioica type and cereals; LPPI-Local Pastoral Pollen Indicators [49,50]: e.g., Trifolium type, Ranunculaceae, Galium type and Asteraceae (mainly Cichorieae sensu [51]).
NPPs were identified and counted in the same slides used for pollen analysis (e.g., [52,53]). Particular attention was given to algae, spores and coprophilous fungi. Their concentrations were calculated as npp/g. All data were elaborated through the Tilia software [54,55]. Pollen zones were identified based on cluster analysis and visual examination.
Pollen datasets from two off-site/natural series that include the same period and are in the proximity of Palù di Livenza were obtained by the NEOTOMA database [56], elaborated with the C2 software and refined [57]. They were the Palughetto mire [58], located on the opposite slope with respect to the location of Palù di Livenza, and the Monte Bondone bog [59], located near Trento. Additionally, two curves showing lake-level fluctuations in the area were plotted in order to allow a general integration of anthropogenic and climate data (Jura Mountains and Lake Accesa [60]).

Microcharcoal Analysis
Microcharcoal analysis was performed at 400× magnification, counting each specimen along 6 lines for each pollen slide. The microcharcoals were divided into 3 size classes, based on the length of the maximum axis (10-50 µm; 50-125 µm; >125 µm) [61][62][63]. Microcharcoals smaller than 10 µm were not considered due to the possible fragmentation that can occur during the extraction procedure (Par. 3.3). The CHAC (concentration expressed as the number of charcoals × cm -3 ) was calculated for each sample and shown in the Tilia diagrams.

Age Depth-Model
The modelled radiocarbon dates indicate continuous sedimentation starting from c. 7200 cal BP to the present day. At around 73 cm, a significant change in sedimentation rate is visible, which may be somewhat artificial assuming a constant sedimentation rate in the deposit. In fact, it is known that the sedimentation in peat bogs can be erratic due to different hydrological inputs during the year. Nevertheless, this assumption and the current day dating attributed to the surface, as normally applied in standard palaeoecological studies [64], allowed us to obtain an age-depth model consistent with the interdisciplinary data. Although no radiocarbon dating is available for SSUU corresponding to the abandonment phase (SU 3, 4, 6), where no archaeological material was found, the results obtained with the model are compatible with the archaeological chronology of Sector 3. Sedimentation rates are consistently higher during the Neolithic period (c. 4400-3650 BC; Figure 5).

Pollen and Microcharcoals Analyses
Pollen spectra were obtained from all of the 20 samples analysed (Figures 6 and 7). Pollen was found in a good/very good state of preservation. Few pollen grains were broken, folded or thin; i.e., with light exine. The mean pollen concentration was 180,000 p/g, with the maximum in sample no. 2 at 45 cm (412,000 p/g) and the minimum in no. 11 at 84 cm (45,000 p/g). These values confirm the very good depositional context that permitted the optimal preservation of pollen.

Pollen and Microcharcoals Analyses
Pollen spectra were obtained from all of the 20 samples analysed (Figures 6 and 7). Pollen was found in a good/very good state of preservation. Few pollen grains were broken, folded or thin; i.e., with light exine. The mean pollen concentration was 180,000 p/g, with the maximum in sample no. 2 at 45 cm (412,000 p/g) and the minimum in no. 11 at 84 cm (45,000 p/g). These values confirm the very good depositional context that permitted the optimal preservation of pollen.
Furthermore, NPPs (Figure 7 were common and well-represented in the samples, and some of them, such as algae and coprophilous fungi, were especially useful for palaeoecological inferences together with pollen results.
Microcharcoals had low concentration in almost all samples (Figure 8). The average CHACH was 363,434 ch. cm Furthermore, NPPs (Figure 7 were common and well-represented in the samples, and some of them, such as algae and coprophilous fungi, were especially useful for palaeoecological inferences together with pollen results.

Cluster Analysis and Description of the Pollen Zones (Figures 6 and 7)
Four pollen zones were identified and they are described below, starting from the bottom of the sequence, reporting average values of the main and most representative taxa. In this zone, the mean percentage of AP and NAP are 39% and 61%, respectively. The main groups represented are the mixed oakwood (22.3%) and the hygrophilous taxa

Discussion
Palynological data show a high floristic richness and four local pollen zones throughout the sequence. The two central zone correspond to the human occupation phases of the site documented in Sector 3. Therefore, comparing pollen assemblages from before, during and after the settlement, pollen evidence highlights at least three major phases of environmental changes. In general, the forest cover is rather high in the most ancient and in the most recent phases, suggesting that the landscape was probably more open during the central phase corresponding to the Neolithic settlement, and that the swamp was formed after the Neolithic period. During the settlement phases (archaeological phases 3 to 5; pollen zones PDLW2, PDLW3 and part of PDLW4) there was an increase in plants related to human activities, such as cereals and other synanthropic species. Palynological data in this zone suggest a good presence of woods as well as wet meadows around the site (Figures 6 and 7). The woods were mainly composed of trees of mixed oakwood (deciduous Quercus, Carpinus betulus, Ostrya carpinifolia/Carpinus orientalis type, Fraxinus excelsior type and Tilia), hygrophilous woods (Alnus, Salix and Populus) and some hilly-mountain trees (such as Pinus, Fagus, Taxus and Betula) (Figures 6a and 7). The presence of pollen from hilly-mountain trees coming from the surrounding mountains (long-transport pollen) suggests that the nearest forest canopy was not closed, otherwise, it would have prevented pollen arrival from a higher elevation. These ideal ecologicalvegetation features may have been the reason why Neolithic communities chose this site to settle their village. Wet meadows are affirmed by the presence of Cyperaceae and Sparganium emersum type (Figures 6b and 7). Traces of human presence are weak, mostly represented by some API (cereals, Plantago, Artemisia, Cichorieae and Urtica) and LPPI (mostly Ranuculaceae and Cichorieae). Among NPPs, spores of coprophilous fungi are present in low quantities and microcharcoals are absent. These data agree with Pini [15], who concluded that human imprint is not attested before the onset of the Neolithic village of Palù di Livenza (5960 cal BP), when the area was dominated by the mixed oakwood, hygrophilous trees and wetlands. From this point on, there is a drastic decrease in the wetlands, which marks one of the differences of this zone from the following one (PDLW2).

Human
Presence and Activities at the Site (PDLW2, PDLW3; Archaeological Phases 3 to 5, c. 6220-5086 cal BP/4270-3136 BC) In pollen spectra, human presence is traced by: (i) a decrease of the AP curve, (ii) the high concentration of microcharcoals, (iii) an increase in API and LPPI and (iv) a significant presence of coprophilous fungi. The first AP decrease is recorded at around 92 cm (PDLW2) and then at 76 cm (PDLW3) (Figure 6a). Concurrently, the microcharcoals indicating fires, are high, in particular in PDLW2 (Figure 8). This suggests the occurrence of regional (i.e., small and medium microcharcoals, reaching further distances from their origin) and local fires (i.e., large microcharcoals, less transported [61,63]). The local signal can be related to human activities such as forest clearing for agricultural or pasture purposes, exploitation of the forest resources to obtain wood to build structures as well as for food processing. Previous anthracological studies have attested to the local use of different tree species [16,17,66]. Wood was used for many purposes (e.g., fuel, building material, production of artefacts, etc.). This is exceptionally recorded at the site. Many wooden artefacts have been found during recent excavations in Sector 3 [17]. A similar scenario is reported in the Late Neolithic lakeshore settlement of Stare gmajne at Ljubljansko barje, an important pile-dwelling site in Slovenia [67]. There, a detailed archaeobotanical study reported the use of different woods according to purposes such as building houses, palisades, boats, wheels and carts, weapons and cooking utensils [67][68][69]; concerning the pile construction, widely used species were Quercus sp. and Fraxinus sp., while lesser-used species were poplar, alder, maple, hazelnut and hornbeam [67].
High values of API characterise these pollen zones (Figure 7). In particular, the recurrence of moderate to high values of cereals indicates the existence of cereal cultivation in the area. Cereal pollen percentages depend on agricultural and cereal processing techniques [70] and it is considered a SAT-Strongly Associated Taxa in modern analogue research [71]. Here, cereals (mainly the Avena/Triticum and Hordeum group with some sporadic Panicum, and Secale only in one sample) are documented in all samples throughout the sequence, but they show a massive increase in PDLW2 and PDLW3 (Figures 6b and 7). The recovery of pollen of wild synanthropic plants such as Centaurea nigra type and the weed Papaver rhoeas supports the evidence of cereal fields in the area. Furthermore, a carpological study of six SSUU from previous surveys inside the archaeological site at Palù di Livenza documents the high presence of cereal seeds (Hordeum vulgare, Triticum dicoccum, T. monococcum and T. aestivum/durum) [17]. Noteworthy is the finding of an exceptionally high amount of cereal pollen (19.6% on average) throughout SU 11 (from 96 to 76 cm, PDLW2; Figures 6b and 7), suggesting cereal transport and processing at the site [48,72]. Indeed, archaeological and palynological evidence show that the analysed sequence is located at the core of the settlement area. The high concentration of cereal pollen can identify a specific area devoted to food production. Similarly, at Stare gmajne, Tolar et al. [67] recovered many remains of cereals (particularly chaffs) and reported that the processing of these plants must have taken place within the settlement.
Other important signs of human activities are the findings of Cannabis and Linum usitatissimum that suggest the use, and possibly cultivation, of these plants for textiles. Accordingly, with its low-pollen producer character, Linum usitatissimum was found in the pollen record in very low percentages. Anyway, as already pointed out by Pini [15], it can be assumed to be strongly under-represented in the pollen spectra when compared with the very high number of carpological remains (seeds, capsules) found in the same context [17]. Flax is of particular importance because it belongs to the "initial Neolithic package" coming from the Fertile Crescent [73,74] and only entered into the Italian peninsula from the easternmost part, the Friuli region. In fact, seeds of flax were discovered for the first time in the Neolithic site of Ljubljansko barje in Slovenia [75]. This species is recorded at only a few other Neolithic sites in Italy, such as the early Neolithic site of Sammardenchia and Bannia (Friuli Venezia Giulia) [18,76] and La Marmotta (Anguillara Sabazia, Rome) [77,78].
The presence of some legumes (Pisum) could also be related to human nutrition, although evidence so far (both from palynological and archaeobotanical data) is not yet sufficient to better delineate legume cultivation at Palù di Livenza [36].
Plants typically growing in ruderal and nitrophilous environments such as Artemisia, Solanum nigrum type (typical of the field's margin or abandoned sites), Plantago, Verbena, Polygonum aviculare type (indicating trampling) and nitrophilous plants (Chenopodiaceae/Amaranthaceae, Rumex, Urtica dioica type) were also found, therefore suggesting the noticeable human impact on the site environs. Among the arboreal plants, Corylus shrubs (which produce edible fruits) were also common. Other woody plants with edible fruits, such as Vitis vinifera and Juglans, were less represented, suggesting a local availability of food resources. Castanea was present in the territory and its pollen probably arrived at the site through long-distance transport. Finally, the LPPI curve and the high peaks of coprophilous fungi (Figure 7) in zone PDLW2 indicate that, in this phase, pastoral activities were an important element of the economy of the village. The combination of LPPI and NPPs, indicating pastures (coprophilous fungi and the endoparasite eggs of Trichuris), is a powerful indicator of local pastoral practices [79]. Furthermore, the finding of Hedera helix in this zone, which is a plant used as winter fodder for cattle ( [15,80] Figure 6a) may strengthen the evidence of the presence of herding during the Neolithic phase. At the end of the sixth millennium BP, a dramatic environmental and cultural change occurred at the site, causing its rapid abandonment. Forest recovery starts after the decline/abandonment of the site at around 60 cm depth (Figures 6a and 7), due to the lower anthropogenic pressure on the area and climatic conditions more favourable to forest development. At Palù di Livenza, the higher forestation rate was mainly due to the growth of Alnus, which marked the expansion of hygrophilous wood. Together with the spread of hygro-hydrophilous herbs (Cyperaceae, Sparganium emersum type), there was the establishment of a wooded swamp. The high percentage of Algae (mainly Botryococcus) supports the pollen evidence of the extent of wetlands. Botryococcus is a planktonic green alga that typically grows in bogs, temporary ponds and other wet environments, and can be considered an indicator of shallow, still water and freshwater input [81,82]. At the same time, cereals and API plants became rare, matching the crop field reduction, whilst coprophilous fungi notably decreased, testifying that lands were not used as pastures either. Altogether, a lesser extent of human influence on the landscape is evident. The gradual abandonment of the site became permanent at c. 4000 years cal BP, from the middle of PDLW4 onwards. The decrease in human activities is also demonstrated by the absence of charcoal fragments in the pollen slides, suggesting that regional and local fire activity drastically decreased during this environmental phase.

A Regional Perspective of the Environmental and Climatic Context during the Middle and Late Neolithic
Data from two natural series that can be compared with PaluON1 are available from the Monte Bondone peat bog [59] and at the Palughetto mire [58]. Both are located at higher elevations with respect to Palù di Livenza (at 1550 and 1040 m a.s.l., respectively). A comparison of some of the selected curves obtained from the palynological analysis at the three sites (AP, cereals and API) shows that the forest cover of Palù di Livenza is half that of Bondone and Palughetto (Figure 9). This could be explained by the fact that PaluON1 is an on-site sequence, while the other two are off-site sequences, and thus less disturbed by human presence [13]. However, the wood composition seems to be the same in the three sites, dominated by mixed oakwood and by hygrophilous wood. Higher values of upland trees (e.g., Abies, Picea, Larix, Fagus sylvatica, Betula) are found at Bondone and Palughetto, as a function of their higher elevation. However, they are also present at Palù di Livenza, at a lower percentage, showing a similar composition to the forest at higher altitudes. Despite the fact that at Palughetto the forest cover remains stable during the period analysed, at around 5500 cal BP (the "decline of the Neolithic world" [83]), there is a decrease in the AP curve both at Bondone and Palù di Livenza, indicating forest decline. This may be linked to anthropic pressure on territory that should have influenced environmental dynamics. Human presence and actions during the life of Neolithic villages are well recorded in the pollen diagrams of Palù di Livenza (see API and cereal curves in Figure 7), while it is less evident at the other two sites. Since 4500 cal BP, there is a good recovery of the forest cover at both Bondone and Palù di Livenza, and the lake level appears to be higher, suggesting a wetter climate. Periods with higher lake levels are, in most cases, related to periods of abandonment of lakeshore settlements [84], as also suggested at Palù di Livenza.
A comparison of some of the selected curves obtained from the palynological analysis at the three sites (AP, cereals and API) shows that the forest cover of Palù di Livenza is half that of Bondone and Palughetto (Figure 9). This could be explained by the fact that PaluON1 is an on-site sequence, while the other two are off-site sequences, and thus less disturbed by human presence [13]. However, the wood composition seems to be the same in the three sites, dominated by mixed oakwood and by hygrophilous wood. Higher values of upland trees (e.g., Abies, Picea, Larix, Fagus sylvatica, Betula) are found at Bondone and Palughetto, as a function of their higher elevation. However, they are also present at Palù di Livenza, at a lower percentage, showing a similar composition to the forest at higher altitudes. Despite the fact that at Palughetto the forest cover remains stable during the period analysed, at around 5500 cal BP (the "decline of the Neolithic world" [83]), there is a decrease in the AP curve both at Bondone and Palù di Livenza, indicating forest decline. This may be linked to anthropic pressure on territory that should have influenced environmental dynamics. Human presence and actions during the life of Neolithic villages are well recorded in the pollen diagrams of Palù di Livenza (see API and cereal curves in Figure 7), while it is less evident at the other two sites. Since 4500 cal BP, there is a good recovery of the forest cover at both Bondone and Palù di Livenza, and the lake level appears to be higher, suggesting a wetter climate. Periods with higher lake levels are, in most cases, related to periods of abandonment of lakeshore settlements [84], as also suggested at Palù di Livenza. Figure 9. Integrated pollen and paleohydrological diagram regarding anthropogenic and climate trends from Palù di Livenza (this study), Palughetto [58], Bondone [59], Jura Mountains and Lake Accesa [60]. An x5 exaggeration multiplier is applied to API curves (empty curves) for better readability.

Conclusions
The PaluON1 record is a key sequence for obtaining information about the environment, the economy and everyday life during the Neolithic period in Northern Italy. From the palynological analysis, the environment before the onset of the settlement was characterised by mixed oakwood forest cover with a high presence of hygrophilous forests and swamps. During the Neolithic period, a marked change in the floristic assemblage was largely due to anthropic pressure and the local economy. The development of agricultural activities especially included cereal fields and plant processing, but also flax and other crop cultivations and animal husbandry/pastural Figure 9. Integrated pollen and paleohydrological diagram regarding anthropogenic and climate trends from Palù di Livenza (this study), Palughetto [58], Bondone [59], Jura Mountains and Lake Accesa [60]. An x5 exaggeration multiplier is applied to API curves (empty curves) for better readability.

Conclusions
The PaluON1 record is a key sequence for obtaining information about the environment, the economy and everyday life during the Neolithic period in Northern Italy. From the palynological analysis, the environment before the onset of the settlement was characterised by mixed oakwood forest cover with a high presence of hygrophilous forests and swamps. During the Neolithic period, a marked change in the floristic assemblage was largely due to anthropic pressure and the local economy. The development of agricultural activities especially included cereal fields and plant processing, but also flax and other crop cultivations and animal husbandry/pastural practices. Human influence and settlement favoured the spreading of synanthropic plants and the presence of regional and local fires. After abandonment, probably caused by changing environmental conditions, the area was occupied again by swamps and hygrophilous woods. As reported for other sites in Italy [85], multiple land-use activities (combining crops and pastoral activities) were in use even during the Neolithic period and are highlighted in the pollen spectra of the PaluON1 on-site record. As a future perspective, a comparison of PaluON1 with an off-site core will be useful to clarify the extent to which the floristic/vegetational changes obtained from this study can be attributed to human pressure on the territory and which are instead attributable to regional-level environmental changes.

Data Availability Statement:
The data that support the findings of this study are available from the corresponding author upon request.