Reconstitution of the Climate in the Municipality of Guimarães (Northern Portugal): A Regional Approach Based on Historical Information and the Record of Measured Data

Climate change is a global phenomenon that has become a focus of concern for society, mainly due to its impacts on daily lives. Despite being a global issue that affects the entire planet, these effects are not felt in the same way in all regions, so the analysis of processes from a regional or local perspective allows a better adaptation of populations to the new reality, as well as being used as a supporting tool for decision making when implementing mitigation measures. For the present analysis, a region in Northern Portugal was chosen, which is in the Mediterranean region, considered one of the hot spots for climate change. In this region of Entre Douro e Minho, more specifically in the municipality of Guimarães, the climate of the last centuries was reconstructed based on documentary information and recent data collected and modeled for the region under study. The results show a successive alternation of hot and dry periods with colder and wetter ones, where climate instability seems to be the dominant trend over the last thousand years. Currently, with the advent of a new period of climatic instability, which, unlike the periods verified previously, now have an anthropic origin, there is a tendency for a new period to occur, in which conditions will tend to be hotter and drier. Knowing this trend in advance allows informed decisions to be made to mitigate some problems that can be associated with these conditions, such as the increase in the risk of wildfires, the proliferation of invasive species, the decrease in agriculture and forests productivity, or even the occurrence of extreme weather events.


Introduction
Climate change is a reality that is currently almost unanimously accepted, both by the scientific community and civil society in general [1]. There are several scenarios that scientists presented over the last years, with the dissemination of simulations that range from the wildly optimistic, with minor changes in the climate, to those being completely catastrophic, which are based on the occurrence of extreme events, increasing both in frequency and severity [2]. Recently, global scenarios gained ground, presenting future developments interconnecting and relating the planet as a whole, remembering that climate change is not a problem exclusive to some countries, but rather being a problem affecting everyone, without looking at statutes or preferences [3]. These global models allow us to understand how different parts of the globe will react to global changes and how each geographic region will adapt itself to the new reality [4]. It is already a certainty that climate change will affect the entire planet, but the severity affecting each region is not the same at each moment, with regions feeling already more intensively the effects, while others may territory. Therefore, a case study is characterized in this article, for which the municipality of Guimarães is selected (Figure 1). The selection of this territory is due to its geographical location, located at the center of the region, allowing for the establishment of a starting point for creating a characterization network of regional scope, supported by the establishment of climatic history. Thus, information was collected, both based on the historical documentary record, actual climate records, and modeled data, to establish a climate history for the municipality of Guimarães. Subsequently, based on this climate history, processes associated with climate change are analyzed, namely, the perception that populations had over time about climate change.
Climate 2022, 10, x FOR PEER REVIEW 3 of 20 an assumption of continuity while allowing the visualization of the changes across the territory. Therefore, a case study is characterized in this article, for which the municipality of Guimarães is selected ( Figure 1). The selection of this territory is due to its geographical location, located at the center of the region, allowing for the establishment of a starting point for creating a characterization network of regional scope, supported by the establishment of climatic history. Thus, information was collected, both based on the historical documentary record, actual climate records, and modeled data, to establish a climate history for the municipality of Guimarães. Subsequently, based on this climate history, processes associated with climate change are analyzed, namely, the perception that populations had over time about climate change.

Framework
To characterize the climate in the Entre Douro e Minho region, which comprises the districts of Porto, Viana do Castelo, and Braga, and where Guimarães is located, the lack of data allows an appreciation of the conditions in more remote times. However, this

Framework
To characterize the climate in the Entre Douro e Minho region, which comprises the districts of Porto, Viana do Castelo, and Braga, and where Guimarães is located, the lack of data allows an appreciation of the conditions in more remote times. However, this assessment can be inferred by using indirect data, such as documentary records, which describe extreme meteorological events in several situations, or that are outside the average climate. Examples are found in the processions "for the weather" registered in the region and in Galicia, which, given the geographical continuity, suffers the same events, with populations acting in the same way. In the absence of measured data, which only began to be collected in the mid-19th century, these descriptions and events allow a glimpse of the evolution of the climate on a regional scale.

Prehistory-Middle Age
The characterization of the climate in the long period between prehistory, mainly from the Bronze Age to the historical period corresponding to the barbarian invasions, is, in fact, very scarce in references, with no records that can be considered as enlightening. For example, Strabo (63 BC-24 BC), in the Book III of his "Geographia" (translation by Deserto and Pereira (2016), available at https://eg.uc.pt/handle/10316/44662, accessed on 3 January 2022), does not present concrete references to the climate of the region, presenting only a few references to the physical characterization of the territory, reporting at a certain point that the western region of the peninsula located North of the Tagus River is "a fertile region and crossed by large and small rivers, all of them flowing from the eastern parts, parallel to the Tagus". With this statement, it can be inferred that the availability of water in the territory was abundant, and, perhaps, it can be imagined that the climate could be wetter than the climate of the Mediterranean coast of the peninsula and even the one verified in the inner regions of the peninsula, where the distance to the sea and the mountain ranges would make it difficult for moisture to enter and for precipitation to occur. Strabo refers to the Lusitanians and Galicians as peoples who predominantly inhabited the mountains, from where they devoted more time to plundering than to agriculture, most likely because it would be difficult in places with poor soil and with more difficult access to water. However, nowhere in the work of Strabo can there be found any climate description of any part of the Iberian Peninsula.
With the arrival of the Romans, these native populations were forced to abandon the "Castros", located on the top of the mountains, and went to inhabit the lower and flatter areas of the valleys, which were also more fertile, where they began to follow a more Romanized livelihood, and where agriculture became the main activity of the populations [46][47][48]. Although without references, probably, the prevailing weather conditions during the period of the Roman occupation of the peninsula remained stable, similar to what probably occurred during the Bronze and Iron Ages [49]. In the Roman period, archaeological finds abound, evidencing widespread agriculture practices, with the installation of the "villae" as preferential settlement units for the occupation of the territory, which is at the genesis of the most significant urban centers in the region, as is the case of Guimarães [50]. However, the field of hypotheses continues since there are no direct descriptive references about the prevailing climate in these periods. Later, in the period corresponding to the end of the Roman Empire, coinciding with the arrival of the barbarian hordes to the Iberian Peninsula, there are some references to the climate, albeit very incipient and recorded much later. Bernardo de Brito, General Chronicler and Monk of the Order of S. Bernardo, in his work "Monarchia Lusitana", in the Second Part (consulted the version edited in Lisbon at the Monastery of São Bernardo, in the year 1609, available in the digital collection of the Biblioteca Nacional de Portugal, at http://purl.pt/14094, accessed on 9 January 2022), presents some references. For example, Chapter XVII of Book V refers to "the entry that people from Germany made into Portugal and other parts of Spain", referring to the period when the Vandals, Suevi, and Visigoths arrived in the Iberian territory. The author, reporting how these peoples entered the region of Galicia and Northern Portugal, stated that "the Germans dwelt in these parts for nearly twelve years, and there were many, who, being fond of the climate and fertility of the land, allowed themselves to be settled in it, first as lords, and after the Romans returned to charge it, subjects like any other of the natives". This reference, which goes back to the end of the 4th century or the beginning of the 5th century, seems to indicate a good climatic condition, favoring agriculture. In Chapter III of Book VI of the same chronicle, the wars between Ataces, King of the Alans, with Hermeneric, King of the Suevi, and the arrival of Atawulf, King of the Goths, are described, "whose weapons feared as invincible, and much more the old hatred with which they persecuted each other, to which was added that they found the place and climate improved from everywhere else they had seen after leaving their lands". Once again, the author briefly refers to the climate. These few references indicate some climatic stability, with favorable conditions for agriculture and the settlement of populations in the region. The same must have occurred during the period of the Muslim occupation of the peninsula, which began in 711 ACE. During this period, there are no references to the Entre Douro e Minho region, where there was no real implantation of the new lords, but rather a succession of incursions and looting, keeping the agrarian structure in the previous format, so that a certain continuity of climate stability could be assumed. The developments and prosperity achieved in the following years in the rest of the Iberian Peninsula during the Muslim occupation are well known, which would have hardly been achieved without the assumed climate stability.

The Medieval Warm Period
The Medieval Warm Period almost superimposes with the Reconquest of the Iberian Peninsula by the Christian armies, which in the Northern region initiated practically immediately after the invasion [51,52]. For some authors, the Medieval Warm Period can be framed between the years 800 to 1200 ACE, as is the case for Broecker (2001), while, for others, such as Crowley and Lowery (2000), the Medieval Warm Period is in between the years 1000 and 1300 ACE, but that does not seem to be a very relevant issue at all [53,54]. However, it is the occurrence of this period that justifies, for example, events, such as the colonization of Iceland and Greenland by the Scandinavians, as reported by Hughes and Diaz (1994), Kuijpers and Mikkelsen (2009), or Ogilvie and Jónsson (2001) [55][56][57].
These climatic conditions, apparently more favorable for the Nordic peoples, can also be indirectly inferred by the activity of those peoples, for example, in the repeated attacks performed over three centuries on the European coasts, where they attacked communities and monasteries, which were filled with riches, along with prosperity based on agriculture. For example, this supposed prosperity in regions in the British Isles would only be possible with a marked improvement in meteorological conditions. Moreover, these are not the usual characteristics of a markedly Atlantic climate located so far up North. Thus, it is entirely expectable that the climate would be warmer and drier than in the preceding period, characterized by specific climatic stability. Thus, it is very likely that, in the Mediterranean region, the effects of the increase in temperature and the decrease in precipitation led to periods of drought. In the case of the Northwestern regions, where the Entre Douro e Minho is located, the conditions have not significantly worsened. Even the temperature rise potentiated a particular improvement to the observed conditions and benefited some crops, such as vines and cereals.

The Little Ice Age
The Little Ice Age is a period of climate change, defined by some authors as occurring between 1250 and 1850 ACE, as is the case for  [58,59]. This period is characterized by being more humid and colder than the previous one. There are several references to extremely cold occurrences registered in this period, for example, the military campaign from 30 January to 15 February 1658, historically known as the March Across the Belts (in Swedish, Tåget över Bält), where the Swedish army invaded the Danish islands, crossing the frozen sea and occupying a group of islands using the hardships of winter [60].
Perhaps one of the first references to the Entre Douro e Minho region emerges in the História Seráfica da Ordem de Frades Menores de S. Francisco na Província de Portugal, written by Manoel da Esperança and published by António Craesbeck de Mello, in 1666.
The author describes, in Chapter V of the Second Part, the foundation of a convent in 1360 (http://purl.pt/20706, accessed on 13 December 2021), stating that, "in the primacy of Braga, where the Bishopric of Britonia previously confined, now known only by the name preserved in the parish and place of Bertiandos, are achieving incomparable favours from the Author of Nature in the freshness, fertility and climate of one of the famous villages of Entre Douro e Minho, called Ponte de Lima". Apparently, in 1360, the hardships of the climate did yet not seem to have affected the region. However, this apparent verified stability seems to have significantly changed in the following centuries.
In the case of the Entre Douro e Minho region, the upcoming centuries were marked by profound variability, with an alternation of periods characterized by climatic extremes, with periods where high precipitation events predominated, interspersed with periods of severe droughts. These periods were identified by Silva (2019) through the analysis of existing documentary records in several locations in the Entre Douro e Minho region, namely, in Guimarães, where the author identified the existence of "pro pluvial" and "pro serenitate" processions, where the inhabitants implored the Divine for the rain to fall, or, in the opposite situation, for the sun to shine when the periods of excessive precipitation did not allow for the ordinary course of agricultural work [61]. The author divided the periods covered by his research, focused on the interval from 1600 to 1855, into different phases, depending on the occurrences described in the historical documents, summarized in Table 1. From the data presented in Table 1, it can be observed that climate variability lasts for about 250 years. This inference is mainly supported by the permanent difficulty in ensuring the success of crops, being imaginable by the occurrence of scarcity periods for the populations, which must indeed be at the origin of much of the immigration that occurred during this period to the most diverse parts of the Portuguese Empire, with Brazil leading the search for a destination where the living conditions could be better. This period seems to have been marked by several periods of scarcity that were recorded, for example, by António José Ferreira Caldas, in his work edited in 1881, "Guimarães: Apontamentos para a sua História" (https://www.csarmento.uminho.pt/site/s/arquivo-digital/item/93797, accessed on 24 January 2022), in which the author states that "in 1855, feeling in Guimarães a great shortage of necessities, the municipal council, in a session of April 2, asked the authorization of the government to take out a loan, half for public works and the remaining to purchase grain, which would be sold to the population without profit".
The period between the end of the Medieval Warm Period and the beginning of the Little Ice Age was characterized by significant instability and climatic variability caused by alternating meteorological events. This transition period, in addition to the difficulties caused by climate variability, was also buffeted by the arrival of the Black Death, which peaked in the years 1347 to 1352 ACE, causing millions of casualties in Europe [62]. Regarding this period, no records allow for a more accurate assessment of the state and evolution of the climate, so it can only be inferred, indirectly, based on historical events, such as the occurrence of pandemic outbreaks, or the analysis of social events, such as popular uprisings caused by the carelessness with which populations were treated by their rulers.

The Modern Period (1855-2004)
The most extended series of available meteorological data in Portugal are those corresponding to Lisbon, which began in December 1855, and remains under continuous monitoring to date. These data can be consulted on the IPMA website (Instituto Português do Mar e da Atmosfera, https://www.ipma.pt/pt/oclima/series.longas/list.jsp, accessed on 20 December 2021). However, it does not seem to be convenient to use this data series to assess the climate of the Guimarães region, since the distance of approximately 350 km and the evident differences between the climate types would have been altered right from the beginning, with an increment in the parameters, such as the temperature in Lisbon. At the same time, regarding the precipitation, it was expected that, for the Entre Douro e Minho region, higher values could be found. In this way, and in the absence of data in a closer region, the data referring to Porto in Serra do Pilar (Vila Nova de Gaia) was collected uninterruptedly from January 1863 onwards. These parameters, once again, primarily at minimum temperatures, but also maximum temperatures, since the dominant wind from the North quadrant in summer, locally known as "Nortada", has a significant effect on the thermal sensation, should contribute to a more negligible difference in the calculation of the average temperature between the two locations.
This same assumption was already established at the beginning of the 20th century by João Monteiro de Meira, in a monograph entitled "O Concelho de Guimarães", presented in 1907 to the Escola Médico-Cirurgica do Porto (https://www.csarmento.uminho.pt/ site/s/arquivo-digital/item/93894, accessed on 20 December 2021), where the author compared the meteorological data obtained in Porto since, as he says, "in Guimarães there is no observatory that could provide the necessary meteorological data", so he used the data collected in Braga by Professor Rev. J. Kempf at Colégio do Espírito Santo. The author justified this use "given the extreme proximity of the two cities, and the analogy of their geographical situation". Subsequently, João de Meira compared the data with those collected by Ricardo Jorge, also a physician who, from an early age, devoted himself to studying the impacts of climate on the health of populations. Additionally, Paul Choffat, in 1904, in a report on the water supply to the city of Guimarães, resorted to the data collected by Professor Rev. J. Kempf, referring to the author in his report that "not knowing meteorological observations in the city, I had to go to Professor Rev. J. Kempf, from Colégio do Espírito Santo in Braga, who since 1888 made these daily observations in that city" (https: //www.csarmento.uminho.pt/site/s/rgmr/item/54219#?c=0&m=0&s=0&cv=0, accessed on 20 December 2021).
From the data available from Serra do Pilar, daily observations were made continuously from 1 January 1863 until 2004. An exception occurred in 1920 and 1921, where there were months without any record. With the daily data, the monthly average values were calculated for the maximum, minimum, and average temperatures, and the monthly cumulative rainfall. The annual average values for temperatures and cumulative values for precipitation were subsequently calculated based on these calculations. Figure 2 shows the evolution of annual average temperatures from 1863 to 2004. For 1920 and 1921, the average values of the previous five years and the five subsequent years were used to complete the missing data.
As can be observed for this period of 141 years, the average annual temperatures follow a trend, since, in the first years, roughly until 1899, the temperature shows a successive downward tendency and approaches the average, which is 14.48 • C. However, from 1900 onwards, and until roughly the beginning of the 1980s of the 20th century, the temperature seems to follow a constant and stable tendency, with little or even no variability around the mean, which changes from 1989, in a very marked way, with the progressive increase in the annual average temperatures, indicating a tendency of increase in the temperatures that were notoriously verified since that moment. Figure 3 shows the projection of data referring to the cumulative annual precipitation. As can be observed for this period of 141 years, the average annual temperatures follow a trend, since, in the first years, roughly until 1899, the temperature shows a successive downward tendency and approaches the average, which is 14.48 °C. However, from 1900 onwards, and until roughly the beginning of the 1980s of the 20th century, the temperature seems to follow a constant and stable tendency, with little or even no variability around the mean, which changes from 1989, in a very marked way, with the progressive increase in the annual average temperatures, indicating a tendency of increase in the temperatures that were notoriously verified since that moment. Figure 3 shows the projection of data referring to the cumulative annual precipitation. There is a similar pattern from the projected trend curve to the one observed in Figure  2 for the temperatures. There was also more significant variability around the mean, which was 1239 mm for the period in question, with a standard deviation of ±298.12 mm.  As can be observed for this period of 141 years, the average annual temperatures follow a trend, since, in the first years, roughly until 1899, the temperature shows a successive downward tendency and approaches the average, which is 14.48 °C. However, from 1900 onwards, and until roughly the beginning of the 1980s of the 20th century, the temperature seems to follow a constant and stable tendency, with little or even no variability around the mean, which changes from 1989, in a very marked way, with the progressive increase in the annual average temperatures, indicating a tendency of increase in the temperatures that were notoriously verified since that moment. Figure 3 shows the projection of data referring to the cumulative annual precipitation. There is a similar pattern from the projected trend curve to the one observed in Figure  2 for the temperatures. There was also more significant variability around the mean, which was 1239 mm for the period in question, with a standard deviation of ±298.12 mm. There is a similar pattern from the projected trend curve to the one observed in Figure 2 for the temperatures. There was also more significant variability around the mean, which was 1239 mm for the period in question, with a standard deviation of ±298.12 mm. The maximum value verified was 2255.30 mm, and the minimum value was 603.50 mm; that is, a difference between the extremes of 1651.80 mm.

Perception and Concern of the Population Regarding the Climate
People always have a very personal perception of the impacts that changes in climatic conditions have on their daily lives, especially in the most remote periods, when these conditions were decisive to the success of agricultural activity. This direct relationship between climate stability and agriculture was extensively addressed by Silva (2019). The author makes a careful analysis of the documents from several archives, where those of the Colegiada da Nossa Senhora da Oliveira (Guimarães), in which there were dozens of processions, prayers, and masses requesting divine intervention to calm the bad weather when it exceeded in time and severity, but also when the lack of rain foretold the failure of the crops. Another author from Guimarães, a devout defender of local history and curiosities, devoted a significant part of his life to collecting many of these records and listing them. Alberto Vieira Braga, in 1943, published "Cercos e Clamores", which is part of a larger work entitled "Curiosidades de Guimarães" (available for consultation in the library of the Sociedade Martins Sarmento, Guimarães, Portugal), presenting an extensive list of these events, demonstrating the importance that climate had for the daily living of populations, which were dependent on the success of crops for their subsistence ( Table 2). Table 2. List of processions, prayers, and masses held to ask for divine intercession to improve weather conditions from the 16th to the 20th centuries, recorded by Alberto Vieira Braga, in 1943, in the work "Cercos e Clamores".

Parish
Date Motive   From the analysis of Table 2, it can be observed that there is a succession of concerns with the meteorological conditions occurring in each moment. Requests for divine favors oscillate between opposites, either asking for the rain to stop, or asking for the rain to fall, as a way of responding to the needs related to the success of crops, which guaranteed sustenance (or its lack) for the populations. Alberto Vieira Braga, in the work entitled "De Guimarães: Tradições e Usanças Populares (da terra, do trabalho, da mulher, do amor, do casamento, da morte, do céu,-vária.)", published by Livraria Espozedense Editora (Esposende, Northern Portugal), in 1924 (https://www.csarmento.uminho.pt/site/s/sms/item/172041#?c=0& m-=0&s=0&cv=0, accessed on 22 January 2022), presented a compilation of the popular sayings commonly used in Guimarães. As can be seen in the work in question (pages 426 and after), there is a significant number of popular sayings referring to the months of the year and their climatic characteristics, also presenting indications of their connection to agriculture (Table 3).

Popular Sayings Month Indication/Meaning
Good days in January will be paid off in February.

January and February
The lack of rain in January prevents the growth of plants, harming the crops.
For part of February, save some firewood. February Indication of the occurrence of cold episodes during February.
When it does not rain in February, there is no good meadow and no good rye. February Another association of the occurrence of precipitation with crops.
Water in March is worse than a stain on the cloth. March This time there is an indication of a period when rainfall is harmful to crops.

Popular Sayings Month Indication/Meaning
Brown and windy March makes the year beautiful. March The designation "brown" can indicate the occurrence of cloudiness and mist, indicating some precipitation. Very useful for watering crops in full growth.
Save bread for May, firewood for April, and the best firebrand, for the month of Saint John.
April, May, and June Reference to cold episodes in April.
Weak is the May that does not break a crust.

May
The indication that it is common to rain in May.
Weak is the May that does not burn a chip (oak chip). May Indication of the occurrence of cold periods in May.
Brown May, a year full. May The same meaning used for the previous popular saying.
End of August, it gives the cold on the face. August The indication of the cooling of the final days of August, indicating the approach of the end of summer.
In August, boil the corn on the cob. August The indication of common occurrence of periods of high temperatures in August.
Wherever the year goes, the month of August will heat up. August The indication of natural heating during the month of August, which corresponds to the peak of the summer.
In September, the mountains burn, and the springs dry up. September Clear indication of a period of warm temperatures and the absence of precipitation.
If in October is taken time to plough the land, it will have little to barge. October The indication that, in October, the rains begin and that, after this, harvesting cereals become difficult.
As can be inferred from the popular sayings collected by Alberto Vieira Braga, there seems to be a tendency towards certain meteorological events, which allowed the creation of a certain constancy in the organization of agricultural practices. The author, probably because he did not find any relevant information on the subject, does not reveal anything about the period in which these popular sayings emerged, which resulted from the empirical knowledge of the populations acquired during the final period of the Little Ice Age, consolidating itself throughout the 18th and 19th centuries, being therefore common and current at the beginning of the 20th century, when the author gathered the information. It should be noted that some of these popular sayings are still widely known in Guimarães and, most likely, in neighboring territories. The prayers presented in the same work by Alberto Vieira Braga used to calm the weather shall also originate from the same period, as is the case of the two prayers presented in Table 4: one to calm the thunderstorm and another to mitigate the rain. When analyzing the perception that people have about the climate, especially those who have higher habilitations and education, and, therefore, a more extraordinary ability to consistently describe climatic conditions, as is the case of parish priests, there is a certain inconsistency regarding the certainty of the content of these descriptions. In 1842, the Municipality of Guimarães launched an inquiry to obtain a characterization of all the parishes. This inquiry contained a paragraph for each parish about the prevailing climate. At that time, Guimarães was constituted by 85 parishes, as mentioned by Alberto Lameiras, in 1998, when he presented the work "Breves Notas Introdutórias" in the compilation that makes the "Inquérito Paroquial de 1842" (https://www.csarmento.uminho.pt/site/s/rgmr/ item/59117#?c=0&m=0&s=0 &cv=0, accessed on 29 January 2022). As mentioned by the author, out of a total of 88 parishes, "eight currently belong to the municipality of Fafe (Arões, S. Romão, Arões, Santa Cristina and Agrela, Fareja, Freitas, Passos, Travassós and Vila Cova), six to the municipality of Vizela (Infias, Tagilde, S. Miguel, S. João, S. Paio and Santo Adrião) and one to Póvoa de Lanhoso (Sobradelo da Goma). The parishes of Corvite and Lobeira are currently integrated into the parishes of Ponte and Atães, respectively. There are parishes that currently have another name: Matamá is Infantas, Paraíso is Selho, S. Jorge and Pentieiros is Tabuadelo. The parishes of Airão, S. João, Briteiros, Santa Leocádia, Fermentões, Infantas, Matamá, Sande, S. Lourenço, Tabuadelo and Santo Adrião de Vizela did not responded to the survey". Table 5 presents a compilation of the results of this survey regarding item 2, referring to climate. Table 5. Results of the survey conducted by the Municipality of Guimarães in 1842.

Parish
Climate Characterization

S. Cristóvão de Abação
The climate is hot in summer and moderately cold in winter, without great cold and humidity, being windy in the higher part of the parish.

S. Tomé de Abação
The climate is cold in winter, with wind, snow, fog, and frost, but even until May, and heat that can be extreme in the summer. Autumn can be comparable to winter, and so can spring, with thunderstorms from the south being fearsome because of lightning and hail.

Santa Maria de Airão
The climate is temperate.

S. Mamede de Aldão
The climate is cold with snow and mists.

Santa Marinha de Arosa
The climate is temperate.

Santa Maria de Atães
Hot weather from spring until the end of the summer. During winter, there is rain, hail, and some mists.

S. Pedro de Azurém
Nothing to report.

Salvador de Balazar
The climate in winter is very cold and windy, with frequent snow and frost, also in the spring, with hail, mists, and thunderstorms. Summer is variable but, when there is no wind, it can be too hot. Autumn is rainy and cold.

S. Cláudio de Barco
The climate is temperate, with hot summers and cold winters.

Santo Estevão de Briteiros
The climate is temperate.

S. Salvador de Briteiros
The climate is temperate.

S. João Baptista de Brito
Winter with cold climate, windy, with frequent snow. Summer can be hot, and autumn can be similar to winter.

S. João das Caldas
The climate is temperate with some wind and thunderstorms.

S. Miguel das Caldas
The climate is temperate, with occasional storms of rain and hail.

S. Tomé de Caldelas
The climate is temperate, windy, and with a long cold season. Thunderstorms may occur in any season, with rain and hail.

S. Martinho de Candoso
The climate is temperate.
S. Tiago de Candoso Nothing to report.

S. João Baptista de Castelões
The climate is temperate.

S. Miguel de Cerzedo
Nothing to report.

S. Martinho do Conde
The climate is cold and humid.

Santa Maria de Corvite
The climate is temperate.

Santa Marinha da Costa
The climate is temperate.

S. Miguel de Creixomil
The climate is temperate.

Salvador de Donim
The climate is temperate.

S. Paio de Figueiredo
The climate is temperate.

Salvador de Gandarela
The climate is temperate.

Santa Maria de Gémeos
The climate is cold, windy, and affected by rain and thunderstorms. Snow and ice can settle in the winter.

S. Pedro Fins de Gominhães
The climate is cold in winter and hot in summer.

S. Miguel de Gonça
The climate is temperate with a cool breeze.

S. João Baptista de Gondar
The climate is temperate.

S. Martinho de Gondomar
The climate is temperate.

Santa Maria de Guardizela
The climate is irregular and undergoes great changes, being hot in summer and cold in winter.

S. Martinho de Leitões
The climate is cold, windy, with snow, hail and frost, not only in the winter season, but even in the spring.

Santiago de Lordelo
The climate is temperate.

S. Vicente de Mascotelos
The climate is temperate.

S. Romão de Mesão Frio
The climate is cold with snow.

S. Paio de Moreira de Cónegos
The climate is cold and humid.

Santa Eulália de Nespereira
The climate is temperate.

S. Vicente de Oleiros
The climate is temperate.

S. Miguel do Paraíso
The winter is cold and, in the summer, the heat is temperate.

S. João Baptista de Penselo
The climate is temperate.

Santa Eulália de Pentieiros
The winter is very cold, with snow, frost, fog, thunderstorms, dew, and hail.

Salvador de Pinheiro
The climate is temperate, but it is very prone to snow, fog, and frost.

S. Pedro de Polvoreira
The climate is temperate.

S. João de Ponte
The climate is temperate.

Santa Eufémia de Prazins
The climate is temperate.

Santo Tirso de Prazins
The climate is temperate.

S. Romão de Rendufe
The climate is cold.

S. Tiago de Ronfe
The climate is temperate.

S. Clemente de Sande
The climate is temperate.

S. Martinho de Sande
The climate is temperate.

Santa Maria de Vila Nova de Sande
The climate is temperate.

S. Cristóvão de Cima do Selho
The climate is temperate, except in winter because it is the colder season with snow.
Santa Maria de Silvares Nothing to report.

Santa Maria de Souto de Sobradelo
The climate is temperate.

Santa Maria de Souto
The climate is temperate. This apparent climatic normality reported by the parish priests in 1842 does not allow a perception of the period to which they refer in their short texts. If, in some cases, they seem to carefully explain the climate and its relationship with crops and impacts on agriculture, on the other hand, they seem only to show the will to fulfil the task imposed by the local civil authority, without great care with the information provided. As can be seen in the compiled answers, most of them refer in a very simplistic way to the climate as being "temperate" or "mild", but, on the other hand, in contiguous parishes, there are references to episodes of cold, with snow, and damage to crops. This ambiguity may be related, first, to the lack of knowledge that some parish priests might have about the region because they were newcomers; or, secondly because it was simply a subject that would cause them no interest at all. However, this compilation can be understood as a reliable source of climate on an even closer scale, the scale of the parish.
On the other hand, João Lopes de Faria, also an author from Guimarães, who dedicated himself to the study of aspects related to local history, collected and compiled thousands of events that he considered important in a work entitled "Efemérides Vimaranenses" (https: //www.csarmento.uminho.pt/site/s/archsms/page/consulta-efem-rides-jlf, accessed on 29 January 2022). In this collection, it is possible to find several references to situations in which the climatic aspects are highlighted (Table 6).  The apparent succession of events seems, once again, to indicate a certain inconsistency in meteorological phenomena, which can be justified by the transition phase that occurred after the end of the Little Ice Age, as mentioned by several authors, such as Akasofu [63] or Serrano et al. [64]. In fact, this sequence of events that was presented in the previous tables seems totally in agreement with the sequence of events presented by Oliva et al. [41] and which are summarized in Table 7.  Oliva et al. (2018) referred to the coldest period of the Little Ice Age, which was characterized by the occurrence of droughts, floods, and very severe cold and heat waves, and the post-Little Ice Age period was also characterized by the progressive increase in temperatures, which led to substantial changes in geo-ecological dynamics, mainly by altering directly related and temperature-dependent processes, such as precipitation and wind [41]. It was during this sequence of events that, with the climate as a motto, populations evolved and adapted over the centuries, evidencing in their uses and customs a certain climatic instability, which was verified cyclically [48]. The analysis of past data allows to us envision solutions to the current situation, and can serve to find past practices that, if properly updated and adjusted, could contribute to the mitigation of the problems that nowadays arise, in a climate change scenario with an anthropogenic origin [65].

Climate Reconstitution
The process of climate reconstruction is always complex, mainly when it is based on the uncertainty caused by the quality of the available data. If the reconstitution process is based on data collected by measurement, which is only possible in the Modern Era, this reconstitution presents a lower degree of uncertainty. It allows the development of models to analyze the needs of ecosystems and societies. On the other hand, when going back in time, there is no access to measured climatic data, and it becomes necessary to use indirect data, often of a descriptive nature, based on the historical bibliographic record, as is the case in the present work. In this situation, the uncertainty of the climatic reconstitution is great, as several problems can arise, namely, firstly, by the lack of relevant data, or even their total absence, for a given region, and, secondly, because, even when they exist, may be compromised in some way by the lack of rigor with which they were recorded. However, as previously presented by Nunes and Ferreira Dias (2022), interdisciplinarity is essential to advance the study and understanding of climate change, and, above all, from this relationship between the Natural Sciences and the Human Sciences can emerge relevant information for the development of models revealing the evolution of processes [65]. Thus, in Figure 4, the climatic reconstitution for the region under study is presented based on the information collected and previously analyzed.  The complete lack of bibliographic data, only possible from the beginning of the Classical Era with the arrival of the peoples from the Eastern Mediterranean Sea to the Iberian Peninsula, does not allow for the classification of the climate of the region in this way. As mentioned earlier, the first descriptions of the Iberian Peninsula are due to Strabo, who does not make any reference to the climate. The description of the inhabitants of the western region of the peninsula, the Galicians and the Lusitanians, as not practicing agriculture but more devoted to pastoralism and supplementing their diet with acorn bread, must be more related to politics, demonstrating how these peoples were barbaric, uncivilized, and, above all, that they did not cultivate wheat, which at the time was the hallmark of Mediterranean cultures. This reference does not indicate that the climate was not predisposed to agricultural practices, since the development that occurred with the arrival of the Romans is well known. This is confirmed in Guimarães by the many "villae" founded and which are the basis of the organization of the territory to date. This long period of climate stability, which, in the Guimarães region, would be framed in a Mediterranean-type climate with a strong Atlantic influence, lasted until the 8th or even 9th century, when the region, similar to what occurred throughout the Northern hemisphere, started to have a warmer and drier climate, characteristic of the Medieval Warm Period. This new period lasted until the 14th The complete lack of bibliographic data, only possible from the beginning of the Classical Era with the arrival of the peoples from the Eastern Mediterranean Sea to the Iberian Peninsula, does not allow for the classification of the climate of the region in this way. As mentioned earlier, the first descriptions of the Iberian Peninsula are due to Strabo, who does not make any reference to the climate. The description of the inhabitants of the western region of the peninsula, the Galicians and the Lusitanians, as not practicing agriculture but more devoted to pastoralism and supplementing their diet with acorn bread, must be more related to politics, demonstrating how these peoples were barbaric, uncivilized, and, above all, that they did not cultivate wheat, which at the time was the hallmark of Mediterranean cultures. This reference does not indicate that the climate was not predisposed to agricultural practices, since the development that occurred with the arrival of the Romans is well known. This is confirmed in Guimarães by the many "villae" founded and which are the basis of the organization of the territory to date. This long period of climate stability, which, in the Guimarães region, would be framed in a Mediterraneantype climate with a strong Atlantic influence, lasted until the 8th or even 9th century, when the region, similar to what occurred throughout the Northern hemisphere, started to have a warmer and drier climate, characteristic of the Medieval Warm Period. This new period lasted until the 14th century, with the climate radically changing, giving rise to the Little Ice Age. During this time, the climate alternated between extremely humid periods with other dry and extremely cold periods, recorded in abundant references, mainly in the 17th and 18th centuries, until the middle of the 19th century. With the end of the Little Ice Age, the records pointed to a period of rising temperatures, but with the occurrence of some more extreme events, such as snowfall and thunderstorms. The 20th century presents itself as a period of climatic stability, practically in its entirety. However, at the end of the 20th century and during the 21st century, there is a tendency towards a new period of instability, with the climate tending markedly towards an increase in the average temperature and a decrease in the precipitation, which is felt more sharply in certain months of the year.

Conclusions
Climate change is a current concern of society, mainly due to the global-scale effects that are felt. These processes affect regions of the planet in different ways. However, with the effects being felt differently, the knowledge and understanding of the processes on a smaller scale, of a regional or local type, are necessary in order to make decisions at a local level, in the sense of allowing the adaptation of populations and the normal development of society to the new scenario of climate change. The historical regional climate reconstruction allows for the analysis of how populations adapted to the fluctuations and impacts they have been subjected to over the centuries. The analysis of case studies, such as the one chosen for the present work, allows us to understand that the climate in the region of Entre Douro e Minho, and more specifically, in Guimarães, suffered several fluctuations over the last centuries, alternating between hotter and drier with others cooler and wetter periods. As mentioned throughout the article, it is worth noting that the harshest periods dominated a large part of the time, as evidenced by the numerous documental records analyzed in this study. The changes verified in recent years seem to follow a trend towards a certain climatic instability, similar to what occurred in the previous historical periods. However, contrary to what occurred in the past, where the alternation of cycles had natural causes, the processes currently taking place are related to the effects of anthropogenic activity on the climate. Funding: L.J.R.N. was supported by proMetheus-Research Unit on Energy, Materials and Environment for Sustainability-UIDP/05975/2020, funded by national funds through FCT-Fundação para a Ciência e Tecnologia.