Literature Review

A recent study by Kim (Reference Kim2011) notes that Asia is one of the most vulnerable regions to climate change. Particularly in Vietnam, agriculture could be affected by flooding, drought, saltwater intrusion, torrential rains, and typhoons (ADB, 2010), and as a result, crop yield could be reduced.Footnote ⁴ The combined effect (negative) of climate change on yields and the high levels of farmer exposure to uncertainty are pervasive in the agricultural sector and in the overall development of the South Asian region (Yu et al. Reference Yu, Zhu, Breinsinger and Manh Hai2010). Several studies (see Thomas et al. Reference Thomas, Twyman, Osbahr and Hewitson2007; Mertz et al. Reference Mertz, Mbow, Reenberg and Diouf2009; Yu et al. Reference Yu, Zhu, Breinsinger and Manh Hai2010; McKinley et al. Reference McKinley, Adaro, Pede, Setiyono, Thang, Huong, Kien, Quicho, Sheinkman and Wassman2015, among others) show that poor or uninformed perception of the effect of climate change results in farmers increasing their level of exposure to negative events and, consequently, paying dearly for their unpreparedness and ignorance in the form of lost income or damaged crops. Furthermore, a review of the literature on the topic of climate change shows that more attention has been paid to issues relating to climate change system modeling, climate change impacts, and adaptation and risk assessment. For instance, a recent study by McKinley et al. (Reference McKinley, Adaro, Pede, Setiyono, Thang, Huong, Kien, Quicho, Sheinkman and Wassman2015) provides an assessment of the perception of climate change and, more importantly, gives evidence regarding the marked differences at the regional and national levels. Several studies, such as Li et al. (Reference Li, Tang, Luo, Di and Zhang2013) and Abid et al. (Reference Abid, Scheffran, Schneider and Ashfaq2015), demonstrate that farmers make decisions regarding allocation of land as it relates to coping with changes in climate conditions based on their self-informed perceptions of how climate change may occur, either as increased droughts or flooding.

As noted, climate change can have multiple effects on the average growing conditions of crops. These variations away from the mean conditions create unexpected scenarios that affect land allocation, average yield, and the total loss of a growing season in extreme cases. Any of these variations, especially when not controlled for, could have pervasive effects to most farmers, particularly those that rely more heavily on rainfall as a main source of water. In this regard, Smajgl et al. (Reference Smajgl, Toan, Nhan, Ward, Trung, Tri, Tri and Vu2015), for instance, indicate that the development of complementary strategies at the government level aim at reducing the negative effects of events such as droughts, thus, providing more stable growing conditions for crops. Particularly, Smajgl et al. (Reference Smajgl, Toan, Nhan, Ward, Trung, Tri, Tri and Vu2015) argue in favor of upstream management of reservoirs to ameliorate salinity intrusion resulting from severe drought years. In this context, management practices such as this would provide more stable conditions for farmers to continue growing their crops and, consequently, better match their climate change expectations with the actual events.

Regarding the development, planning, and implementation of government policies to counter the negative effects of climate change, Yu et al. (Reference Yu, Zhu, Breinsinger and Manh Hai2010) argue in favor of policies particularly aimed at ethnic-minority and poor communes. Yu et al. (Reference Yu, Zhu, Breinsinger and Manh Hai2010) argue that these practices could result in increased productivity and amelioration of negative effects deriving from climate change by reducing the unexpected variability of climate change on agricultural production. Furthermore, Morton (Reference Morton and Nunan2017) concludes that local knowledge (or perception) of climate change can help in the effective and efficient adoption of management strategies to counterbalance the negative effects of climate change, particularly in agriculture production. Due to the inevitability of a changing climate and its adverse consequences—particularly when the variation is extreme, either through a severe drought or excessive flooding—it is relevant to better understand the impact on smallholders living in the fragile ecosystem of Vietnam's M&RRD. For example, Yu et al. (Reference Yu, Zhu, Breinsinger and Manh Hai2010) estimate that yield could decline as a negative consequence of future climate change in the range of 4.3 percent to 8.3 percent by 2050 in the MRD and a decline of 7.5 percent to 19.1 percent in the RRD regions. A related study of the RRD Symposium of 2016 indicates the presence of asymmetric efforts to understand the effects of climate change as the RRD suffers more from climate change, yet receives less attention than the MRD.

In the same study, Yu et al. (Reference Yu, Zhu, Breinsinger and Manh Hai2010) argue that to counter the negative effects of climate change, modern technology and crop diversification must be tailored to promote an adaptation of change that is local in nature and, thus, considers spatial conditioning elements. In a similar fashion, McKinley et al. (Reference McKinley, Adaro, Pede, Setiyono, Thang, Huong, Kien, Quicho, Sheinkman and Wassman2015) address issues of perception, accounting for differences at the local and national levels in Vietnam. Of particular interest is their assessment that policy formation centered on the effects of climate change on agricultural production, employment, and the overall level of economic development tends to follow a centralized, top-down approach. The authors note that the marked differences of the reported effects of climate change vary largely by group. This is to say that increased saline in the soil was reported by stakeholders as the most concerning effect of climate change. At the local level of data disaggregation, however, McKinley et al. (Reference McKinley, Adaro, Pede, Setiyono, Thang, Huong, Kien, Quicho, Sheinkman and Wassman2015) note that in the MRD region the top three concerns were flood, drought, and rainfall. Smajgl et al. (Reference Smajgl, Toan, Nhan, Ward, Trung, Tri, Tri and Vu2015) highlight the development of mitigating strategies, such as alternative livelihoods production activities away from farming, as the response of negative effects of climate change on agricultural production. The issue of response to climate change also extends to the role that the central government plays. For instance, McKinley et al. (Reference McKinley, Adaro, Pede, Setiyono, Thang, Huong, Kien, Quicho, Sheinkman and Wassman2015) argue in favor of the development of salt-tolerant rice varieties, climate-smart land, and crop management as possible strategies to counter the negative effects of climate change, severe drought, and flooding.

Most recently, Chapman and Darby (Reference Chapman and Darby2016) recommend adaptation policies in the M&RRD in response to climatic changes. Particularly, Chapman and Darby (Reference Chapman and Darby2016) emphasize the benefits of what they call a system dynamics approach. In this system, the authors argue that the primary focus is to assess the existent disparate of cross-disciplinary factors in the process of developing a controlling adaptation process to successfully increase efficiency and overall productivity. These results are particularly useful given the proliferation of a triple-cropping rice cultivation system, which while in the short run may increase food production and income, may in turn increase the exposure that poorer farmers experience as a result of potential increases in the price of fertilizer.

The review of the extant literature makes evident that adaptation is a key and fundamental response to climate change, particularly for regime-switching events and severe variations in climate conditions. For instance, Bryant et al. (Reference Bryant, Smit, Brklacich, Johnston, Smithers, Chiotti and Singh2000) report that adaptation in agriculture is how the perception of climate change is translated into agricultural decision making.Footnote ⁵ There have been several studies investigating factors that affect adaptation to climate change in the agricultural sector (see Adger et al. Reference Adger, Huq, Brown, Conway and Hulme2003; Deressa, Hassan, and Ringler, Reference Deressa, Hassan and Ringler2011; Below et al. Reference Below, Mutabazi, Kirschke, Franke, Sieber, Siebert and Tscherning2012 among others). However, in the extant literature, relatively little attention has been devoted to the perceptions farmers hold on the effects of climate change and their impact on income and land allocation decisions. The observed differences between perceptions among stakeholders of the impact and strategic behavior resulting from climate change in Vietnam (McKinley et al. Reference McKinley, Adaro, Pede, Setiyono, Thang, Huong, Kien, Quicho, Sheinkman and Wassman2015) and the effects that central government imperatives have on household-level motivations and adaptation (Yu et al. Reference Yu, Zhu, Breinsinger and Manh Hai2010) becomes a relevant and timely field for research. Thus, our paper attempts to fill the gap in the understanding of the perception of climate change by smallholder households on rice income and land allocation decisions (both owned and rented land).

Empirical Framework

To estimate the effect of perceived climatic change on income, land allocated to paddy, and owned and rented land allocated to paddy, the endogenous treatment effect was used with a binary response (Vella and Verbeek, Reference Vella and Verbeek1999). The empirical model was estimated on a two-stage framework. In the first stage, the factors affecting the perceived climatic change by smallholders in MRD and RRD of Vietnam were investigated. Using consistent estimates from the first stage, an inverse Mills ratio (IMR) was calculated to account for potential treatment selection bias. The IMR along with the binary response on climate change and other variables were then included in the second stage in the rice income, land allocation decisions for paddy, and owned and rented allocation decisions for paddy. A detailed discussion on the econometric framework in each stage is discussed below.

First Stage Estimation

To model the perception of climate change by smallholders in the M&RRD, the binary choice framework was employed.Footnote ⁶ Notably, there were some smallholders who observed climate change and some who did not. The underlying model assessing perception of climate change is embedded in the psychometric (Fischhoff et al. Reference Fischhoff, Slovic, Lichtenstein, Reas and Combs1978; Sjöberg Reference Sjöberg2000) and the cultural theory models (Dake Reference Dake1991; Sjöberg Reference Sjöberg1997). Additionally, the cultural theory stresses that risk perception is a reflection of the social context in which an individual finds him or herself. Regardless, the argumentation indicates that the perception of climate change among farming communities or rural communities is driven by several socioeconomic and environmental factors (Sampei and Aoyagi-Usui Reference Sampei and Aoyagi-Usui2009; Deressa, Hassan, and Ringler, Reference Deressa, Hassan and Ringler2011). These factors include farming experience, the age of the farmer, spouse, gender, household income, educational attainment, membership in environmental groups, access to media (Leiserowitz Reference Leiserowitz2006), soil type, and geographical locationFootnote ⁷ (Maddison Reference Maddison2006). Thus, the specification of the binary probit model describing the perception of climate changeFootnote ⁸ is shown as

(1)$$P_c^{^\ast} = X{\rm ^{\prime}}\beta + \zeta\semicolon \; \; P_c = 1\; \; {\rm if}\; P_c^{^\ast} \gt 0\comma \; E\lpar \zeta \rpar = 0\semicolon \; {\rm Var}\lpar \zeta \rpar = 1\comma$$

where $P_c^* $ is the latent variable that represents the probability/propensities of smallholder households to observe climate change (perceived); notice that this variable is not directly observed in the data. Instead, only the binary indicator allows us to specify if the smallholder perceives climate change over several years, i.e., increased temperature, rainfall, sea level, variability in rainfall, and drought. X is a set of covariates associated with perceived climate changes. β are parameters to be estimated. The error term ζ follows a standard bivariate normal distribution. Consistent estimates of Equation 1 can be obtained by applying the maximum likelihood estimation to the following log likelihood function:

(2)$$\log L = \mathop \sum \limits_{i = 1}^n \log {\rm \Phi} [\lpar 2P_c - 1\rpar X{\rm ^{\prime}\beta}] \comma$$

where Φ is the cumulative density function of the bivariate normal distribution.Footnote ⁹

Second Stage Estimation

To examine the extent to which perceived climatic change may affect income, land allocation to paddy, and owned and rented land allocated to paddy, the endogenous treatment effects were incorporated. Here we follow the specification in Barrow et al. (Reference Barrow, Hulme and Semenov1996), which posed that this model with endogenous treatment effects accounts for the fact that unobservable variables might be correlated with perceived climatic change,Footnote ¹⁰ the level of rice income, and land allocation decisions (owned and rented land) of smallholders. To estimate the endogenous treatment effects model, two methods have been proposed in the literature, which include instrumental variable and control function methods. A detailed discussion of these two methods is found in Vella and Verbeek (Reference Vella and Verbeek1999). Specifically, Vella and Verbeek (Reference Vella and Verbeek1999) found that both methods generate consistent estimates; however, the control function method is preferable when it comes to gains in efficiency. Therefore, in our study, the control function method (CFM) was used.

CFM is an extension of the sample selection framework but with application to the entire sample. In order to correct self-selection bias, the generalized residual, generalized inverse Mills ratio (GIMR), was calculated for perceived climate change in the entire sample. Using Greene's (Reference Greene2012) approach, the GIMR in univariate probit model is shown as

(3)$${\rm GIMR} = \lpar 2P_c - 1\rpar {^\ast}\displaystyle{{{\rm \phi} \lpar 2P_c - 1\rpar X{\rm ^{\prime}\beta}} \over {{\rm \phi}_i \lpar .\rpar }}{\rm \Phi\comma}$$

where GIMR is the general residual of perceived climate change by smallholders. Φ(.) and Φ(.) are the cumulative density function and probability density function of the standard normal distribution, respectively. Including GIMR in the income and land allocation (owned and rented), while also applying ordinary least squares method (OLS), results in consistent estimation (Vella and Verbeek, Reference Vella and Verbeek1999). The estimated income, land allocation in paddy, and owned and rent land in paddy production is thus specified as

(4)$$Y_{it} = {\rm \beta ^{\prime}}X_i + d_c{^\ast}P_c + k_c{^\ast}{\rm GIMR} + {\rm \mu} _i\comma$$

where Y _i is the outcome variable of smallholder household, i, and t = four outcomes (rice income, land allocation in paddy, owned land allocation in paddy, and rented land allocation in paddy). β is the vector of parameters to be estimated, X _i contains exogenous variables, and P _c is a binary indicator that specifies smallholders’ perception of climate change. The estimated parameter, d _c, captures the effect of perceived climate change on the outcome variable of interest (rice income, land allocation to paddy, and owned and rented land allocated to paddy). Finally, the scalar, μ_i, is the random error.

Finally, based on the consistent estimation of Equation 3, two issues are of interest. The first issue is whether or not perceived climate change has any significant effect on the outcome variables of smallholder households. Specifically, the null hypothesis H ₀: d _c = 0 was statistically tested. Alternatively, testing H ₀: k _c = 0 provided the statistical evidence on whether or not there is a need to include the GIMR to correct for self-selection bias in the outcome equations.

Data and Description of Variables

The data for this study are original data collected by the International Rice Research Institute (IRRI) in collaboration with the Institute of Policy and Strategy for Agriculture and Rural Development (IPSARD) and the Vietnam National University of Agriculture (VNUA) as part of the Policy Information and Response Platform on Climate Change and Rice in ASEAN and its Member Countries (PIRRCA) Project. A total of 428 households were surveyed on climate change perceptions. Seven districts in three provinces of the MRD were selected as part of this survey, according to the following distribution: An Giang Province with 90 households, Bac Lieu Province with 64 households, and Tra Vinh Province with 60 households. In the RRD, two districts were selected: Thai Binh with 107 households and Nam Dinh with 107 households. The survey areas for this study were selected based on prior knowledge of climate change issues specific to these locations. In the respective hierarchical order, communes, districts, and villages were selected following the same criteria. From a list of farmers with at least 10 years of farming experience at the commune level, the households were selected using a stratified random sampling procedure with the same number of respondents from each village.

The survey was conducted in the three provinces in the MRD under the supervision of IPSARD and in two provinces in the RRD under the supervision of VNUA. The five provinces included in this survey face various climate change issues. To illustrate the variety and possible extent of the climate change impact, let us look at some specific cases. First, the Bac Lieu is a coastal province with a coastline of 56 km, a flat terrain, and tropical monsoon climate; it is one of the main rice-producing provinces in the MRD. Nevertheless, this province faces several climate change challenges, such as sea level rise and heavy rain. The sea level rise causes salt intrusion into paddy fields, which leads to crop losses, while heavy rains result in floods and also cause crop damage. Second, the Tra Vinh is another coastal province of the MRD also affected by sea level rise. Furthermore, in An Giang, the main climate change challenges are related to unusual rainfall patterns and frequent flood. In the RRD, Thai Binh and Nam Dinh are regions characterized by cold and hot temperatures, typhoons, cyclones, and floods.

Smallholder households’ perceptions of climate change relate more to the increased variability and uncertainty of specific weather parameters rather than long-term climate change (Mertz et al. Reference Mertz, Mbow, Reenberg and Diouf2009). Some of these perceptions include the late onset of rains, shorter wet monsoon strong winds with excessive rains, more intense summer heat, and unpredictability in the patterns of the seasons. However, in this study of Vietnam's M&RRD, the authors queried smallholder households (operators and spouses) on the severity of climate change over time. Specifically, they were queried over whether they had observed, consistently over time, increased temperature, increased sea levels, increased variability in rainfall, and increased incidences of drought.Footnote ¹¹

Descriptive statistics on the households involved in the surveys are presented in Table 1. The average age in the survey is 50 years, and the male operator is slightly older than the spouse. The farming experience of both the operator and spouse is around 30 years, which is a long enough time frame to expect adequate judgments from them on perceived climate changes in their respective areas over the past 10 years. In addition, the data indicate that male operators in the survey have about three years’ more farming experience than their spouses. This finding could also be linked to the age gap between operators and spouses, which is roughly three years. In most households, male operators and spouses have six years of education, and in Vietnam, six years of formal education is equivalent to the completion of primary school. Furthermore, the average household size is four members, with the largest household reaching 10 members, and the majority of households are run by a male. Households in this survey have 1.2 ha of land on average, and the majority (about 90 percent) of this land is devoted to paddy production; however, in terms of land allocated to paddy production, owned land dominates rented land. Additionally, the majority of farmers grow rice in an irrigated environment. On average, households have a total income of 97 million VND, with the majority derived from rice production, which confirms once again the importance of rice production in the livelihoods of farmers in the delta regions.

Table 1. Variable Description and Descriptive Statistics

Sources: Survey conducted by author(s).

Results and Discussion

In this section, we discuss the results of the factors affecting perceived climate change by smallholder households in Vietnam's M&RRD, followed by the impact of perceived climate changes on income and land allocation decisions (owned and rented land) by smallholder households.

Factors Associated with Perceived Climate Changes

In reference to the probit model (Table 2), McFadden's R ² (0.10) is used to evaluate the fit of the model, with results indicating a reasonable fit of the model considering the cross-sectional nature of the data (Hensher and Johnson, Reference Hensher and Johnson1981). Table 2 presents estimated parameters for the probit model of factors associated with perceived climate change by smallholder households in the M&RRD. Incidentally, results show no significant influence of the traditional household characteristics (age, education, farming experience, household size, household head gender, farm size) on the probability of perceived climate change. Nevertheless, the type of ecosystem and provincial location of the farm and, by extension, smallholder household (dummy variable) have a significant influence on the probability of perceived climate change. For instance, smallholder household-irrigated ecosystems, compared to farms in the rainfed ecosystem, are more likely to perceive climate change (incidences of increased temperature, increased sea level, increased variability in rainfall, and increased drought). Our results indicate that being in an irrigated environment increases the probability of perceived climate changes by 9 percent. A plausible explanation could be that smallholder farms with irrigation facilities can better perceive climate change because they operate farms in a more controlled environment – perhaps needing to know what their irrigation requirements, costs, and profits are while planning their crop production. Additionally, smallholders who have irrigation facilities (irrigated ecosystems) may be relatively wealthy, and wealthy households tend to be more educated.

Table 2. Probit Estimates of Factors Affecting Perception of Climate Change

^a We report actual marginal effect.

^b Nam Dinh province is used as a reference in the negative binomial regression

Single, double, and triple asterisks (*^, **^, ***) indicate significance at the 10 percent, 5 percent, and 1 percent level, respectively.

The location of the smallholder households and, by extension, their farms, is another important determinant of perceived climate change by farmers in the M&RRD of Vietnam. Results in Table 2 reveal that farms located in the Bac Lieu, An Giang, and Tra Vinh provinces perceive a significantly higher probability of climate change than farms located in the base province of Nam Dinh. Results indicate that smallholder farms located in the Bac Lieu and Tra Vinh provinces, when compared to farms in the Nam Dinh province, are 11 percent and 8 percent more likely to perceive climate change, respectively. This is expected because the Bac Lieu and Tra Vinh provinces are located near the coast, so those farms have witnessed increasing sea levels over the past decade. Similarly, smallholder farms located in the An Giang provinces are 8 percent more likely to perceive climate change compared to smallholders located in the Nam Dinh province. The An Giang province, one the largest rice-producing provinces in the delta, witnesses frequent occurrences of fluvial floods. Coupled with the design of the dyke system for irrigation, flooding has raised major concerns for rice farmers over the past years. Notably, our findings are consistent with Chapman and Darby (Reference Chapman and Darby2016).

Impact of Perceived Climate Changes on Outcome Variables

The impact of perceived climate change by smallholder households, its impact on rice income (major crop of farmers in the M&RRD), and total land allocated to paddy crop (Equation 4) is presented in Table 3. We use ordinary least square (OLS) to estimate the model, given that the primary objective of this study is to investigate the effects of perceived climate change on rice income and total land allocated to paddy crop. Table 3 presents the results on testing the above-mentioned hypothesis. In turn, Table 4 presents the test value under the null hypothesis that the perceived climate change by smallholders has no effect on rice income, and total land allocation under paddy crop is rejected. The results provide evidence that perceived climate changes by smallholders are important determinants of rice income and land allocation decisions on paddy crop.

Table 3. Parameter Estimates for Impacts of Perceived Climate Changes on Income and Land Allocation to Paddy

^a We report actual elasticity.

^b Nam Dinh province is used as a reference in the negative binomial regression.

^c H₀: Climate change = 0.

^d H₀: GIMR = 0.

Single, double, and triple asterisks (*^, **^, ***) indicate significance at the 10 percent, 5 percent, and 1 percent level, respectively.

Table 4. Parameter Estimates for Impacts of Perceived Climate Changes on Owned and Rented Land Allocation to Paddy

^a Nam Dinh province is used as a reference in the negative binomial regression.

^b H₀: Climate change = 0.

^c H₀: GIMR = 0.

Single, double, and triple asterisks (*^, **^, ***) indicate significance at the 10 prcent, 5 percent, and 1 percent level, respectively.

Furthermore, it appears that smallholder households that perceive climate change are likely to have lower income from rice farming (Table 3). Our results show that households that perceive climate change have significantly lower rice income by about 3.3 percent less, compared to their counterparts. The decline in rice income can be attributed to the loss of paddy resulting from climate change phenomenon, such as intrusion of sea water in paddy fields, frequent floods, cold and hot temperatures, irregular rainfall pattern, and/or a combination of several of these elements. Our findings are consistent with previous studies such as Trung (Reference Trung2013), Thuy and Anh (Reference Thuy and Anh2015), and Vien (Reference Vien2011). For instance, Thuy and Ahn (Reference Thuy and Anh2015) in particular note that the MRD is very sensitive to flood and salinity because it is a low-lying coastal region.

An integral part of our study, as stated in the previous section, relates to the other critical issue of interest, referring to whether or not a self-selection bias occurs between perceived climate changes, income, and land allocation decisions. In this particular case, the test value on GIMR ranges from 3.10 to 14.58 and remains statistically significant at the 5 percent level of confidence. These results provide robust and consistent evidence of a self-selection bias problem. In other words, the results of this analysis would be biased if the endogeneity between perceived climate change and rice income, total land allocated to paddy crop, and both owned and rented paddy land allocated to paddy crop of the smallholder rice farmer is not corrected. Thus, our original intuition is confirmed by the evidence, allowing us to provide a more robust analysis of the determinants and the dynamics of decision making in terms of land allocation as a result of climate change. This is, in itself, is a relevant piece of the analysis, because it indicates that the adjustment process spinning off from external events related to climate change has deeper roots that when not treated appropriately would yield unreliable results.

Because of the importance in the determination of rice income for smallholders, we study a set of other factors including farm size, ecosystem, and location of the farm. First, consistent with the economic theory, the parameter estimate on the farm size is significant at the 1 percent level of significance. More specifically, the results indicate that a 1 percent increase in farm size increases rice income by 1.3 percent.Footnote ¹² Secondly, the coefficient on the ecosystem is positive and significant at the 1 percent level of significance (Table 3), indicating that smallholders in an irrigated environment have higher (7.5 percent higher) rice income compared to smallholders in the rainfed ecosystem (Table 3, column 3). This result is expected because farmers in the irrigated ecosystem have access to improved facilities and improved rice varieties (irrigation infrastructures, for example) as well as the fact that irrigated rice production is higher than nonirrigated rice production (or rainfed). Smallholders with irrigated rice production have the advantage of using better and more unified management practices, which leads to higher yields and, hence, increased income. Notably, our findings are consistent with Thi Ut and Kajisa (Reference Thi Ut and Kajisa2006). Finally, our estimates accounting for farm location indicate that farms located in the Bac Lieu and Thai Binh provinces have higher rice incomes than in the Nam Dinh province. As noted earlier, the estimated coefficients yield consistent and robust evidence demonstrating that production of rice in the Nam Dinh province is frequently affected by climatic changes like flooding and rising sea levels, which consequently has a negative impact on farm income. Incidentally, this coefficient difference across provinces indicates that the level of exposure to negative effects deriving from climate change is higher in the Nam Dinh province.

Given the set of previous results, it follows that studying the impact of perceived climate change on land allocation in paddy crop is also an important issue to discuss. In this context, with regard to the factors affecting land allocation, our empirical evidence indicates that perceived climate change by smallholders has a negative and significant effect on land allocation decisions for paddy crop. Parameter estimates on climate change are negative and statistically significant at the 1 percent level of significance (see Table 3, column 4), indicating that smallholders who perceive climate change tend to reduce land allocated to paddy by 0.5 percent. These results are complemented by the evidence in Table 3, revealing regional differences when it comes to land allocation decisions for rice in the presence of climate change. Additionally, parameter estimates are positive and significant for farms located in Bac Lieu, An Giang, Tra Vinh, and Thai Binh provinces. At the marginal level, we observe a 3 percent to 6 percent increase in total land allocated to paddy crop in these regions, compared to the reference province of Nam Dinh. As expected, irrigated ecosystems have more land allocated to paddy. Finally, the coefficient on the household head (=1 if male) is positive and significant, indicating that male-headed households, as compared to female-headed households, tend to allocate more land (1.2 percent) to paddy crop in the presence of perceived climate changes. A plausible reason could be that men tend to be overconfident, thinking that they can predict and handle the future, while women are more willing to adapt their strategies and behavior (Brown-Kruse and Hummels Reference Brown-Kruse and Hummels1993; Patt, Dazé and Suarez, Reference Patt, Dazé and Suarez2007).

Finally, we investigate if there are any differences in the allocation of land to paddy crop by land ownership. To accomplish this, the total land allocated to paddy crop is broken down into owned and rented rice land. Parameter estimates of the two estimated modes are shown in Table 4. Interestingly, the estimation results for owned land allocated to paddy crop remain consistent but lower in magnitude with those obtained in the total land allocated to paddy. One exception in this set of findings is that older (age of the operator) male operators (positive and significant coefficient on head of household) tend to allocate more of their owned land to paddy production. This finding could be due to the fact that owned land allocated to rice production represents a major share of the total land allocated to paddy crop. Additionally, Table 4 shows that parameter estimates are positive and significant for farms located in Bac Lieu, An Giang, Tra Vinh, and Thai Binh provinces. Results indicate a 1.2 percent to 1.8 percent increase in owned land allocated to paddy crop in these three provinces, compared to the reference province of Nam Dinh.

Finally, column 5 of Table 4 presents the parameter estimates of the model of rented land allocated to paddy crop in the presence of perceived climate change by smallholders. In this case, we see the sign on the coefficient of perceived climate change is reversed but significant at the 1 percent level of significance. Findings indicate that smallholders who perceive climate change tend to allocate more land to paddy crop, but the land is rented. We hypothesize that this result could be a risk management strategy for the smallholder households given the incidence of climate change in their region. In this context, it is pertinent to recall that in Vietnam, lands owned by farmers are, in general, allocated by the government who manages the agricultural land system. These lands cannot be used for other crops besides rice without permission from the government. More precisely, the legislation based on Article 134 of the “Vietnam Land Law No. 45/2013/QH13” about land for rice cultivation in Vietnam indicates the State develops policies to protect land for rice cultivation and to limit the change from the purpose of rice cultivation to other nonagricultural purposes (Socialist Republic of Vietnam, 2013).Footnote ¹³

Therefore, with the increasing challenge of climate change in their region, farmers are more likely to seek rentable land that is less affected by natural disasters such as flooding and rising sea levels. Even though rice income decreases as a result of perceived climate change, smallholders still have a comparative advantage in growing rice, as it requires less investment (human capital and experience) and is a source of more stable income. Importantly, farmers still prefer to use the rented land for rice production. A recent article published in the Viet Nam News on August 6, 2013 entitled, “Poor Returns Drive Rice Farmers From Land,” reveals the increasing trend of smallholders waiving their land-use rights to migrate and look for off-farm jobs in the city as a result of low return from paddy production. This article has stressed that this phenomenon is particularly occurring in several provinces of the RRD (Viet Nam News 2013). While some farmers are abandoning their land for off-farm jobs, those who want to remain in the rice production business have the opportunity to rent land, especially if the land is located in areas less affected by climate change. Indeed, these findings show that smallholders are astute in using their recourses carefully in that they reduce owned land allocated to paddy crop production while increasing the use of rented land in paddy crop production. There are also social welfare implications directly deriving from land ownership changes and land reallocation among smallholder farmers resulting from climate change. We believe that these last sets of topics are interesting fields of future research. Climate change appears to have larger implications that have received little attention. Because of Vietnam's geographic location and its large and dominant position in world rice production, our study provides relevant lessons useful to understand the dynamics of climate change on agricultural production, land allocation, and smallholders’ income.

Conclusions and Policy Implications

Climate change presents major environmental challenges for agricultural-based countries such as Vietnam and nearby neighbors. Climate change effects are manifested as strong fluctuations in rainfall, increased sea levels, increased soil salinity, increased temperatures, increased incidences of drought, and increased variability in rainfall. With global climate change, the impact and frequency of extreme state-dependent weather events are expected to intensify. Vietnam's M&RRD are the most productive region of the country; however, agriculture has been under significant pressure because these regions are affected by natural disasters and climatic changes. The negative effects of these events have further increased as a result of agricultural expansion into more vulnerable areas. To this extent, relatively little is known regarding how smallholders perceive climate change and how it affects their income and land allocation to paddy crop. To bridge this gap, our study contributes to the literature by examining the factors affecting the perception of climatic change and how perceived climate change by smallholder households affects total land allocated to paddy crop production and, consequently, rice income. Notably, using a two-stage modeling approach, we pay particular attention to both owned and rented land allocations to paddy crop production. Using farm household level data from Vietnam's M&RRD, we find that regional location of the farm has a significant impact on the perception of climate change.

Our findings reveal that indeed the perception of climate change has a negative and significant impact on rice income and total land allocated to paddy crop; yet, we also find that smallholders tend to allocate less owned land to paddy crop and, in turn, allocate more of the rented land to paddy. Additionally, we find a significant reversal of the results for older farmers, where older farmers are likely to keep allocating more of their owned land to paddy crop and less rented land to paddy crop. Our study underscores the importance of the perception of climate change and how smallholders are affected – whether it be a loss of income or how smallholders allocate land to rice production. As climate change affects their livelihood, smallholders respond in a way that is consistent with economic theory. It is important to note that as climate change continues to affect smallholders’ livelihoods, increases in land allocation to new areas and provinces and increased deforestation may occur. This may become detrimental to the environment. Therefore, the call for appropriate policies and strategies to cope with the climate change challenges is significant.

Our study provides robust evidence that smallholder strategies relating to land allocation are based on their perceptions of climate change. Given that perceptions can be subjective, designing appropriate systems to provide smallholder households with historical and real-time climate information could also help households effectively plan their coping strategies when it comes to their own livelihoods and land allocation decisions. The merger of smallholder perceptions with local-driven policies would be useful to reduce the variability of farm incomes and increase the livelihoods of smallholders while increasing overall food security.

Our empirical analysis on the perceptions of climate change by farmers and their spouses provides some very relevant results. However, by the same token, our research indicates that further exploration on how expectations of climate change are formed is a relevant future field of study. For instance, it is of relevance to understand if farmers act the same way in the presence of droughts and flooding expectations. In addition, it is relevant to study the degree of information asymmetries that different farmers may have and how this could affect farming decisions on owned and rented land. Furthermore, it remains unclear if there is a threshold in the perception of climate change upon which farmers make their planting decisions. Additionally, do farmers perceive that small climate change variations might only have minor effects on crops and, thus, make no changes to planting decisions, or if the event(s) is expected to be large enough, does the farmer act?

In other words, an interesting research field is to evaluate the degree of variation on climate change perception that triggers a response from the farmer to produce or not and whether or not this perception is accurate. If the perception of the event is correct and the farmer assesses the negative effect correctly, then the farmer has protected him/herself from the negative event. However, if the perception is erroneous, then the farmer increases his exposure to the negative event or loses income when the negative event would have only had a minor effect on overall crops. Thus, the perception of climate change could go either way, and correctly assessing these differences in these events is a primary point of interest when understanding how farmers create their perceptions. Finally, it is also relevant to assess how (in)accurate are the expectation formation processes of climate change in relation to the actual climate events. All these research avenues are beyond the scope of the current research.